IFOY Archives

BREAKING NEWS: IFOY AWARD 2022 goes to six companies

Posted on 30 June, 2022 by Keith McKinley

The winners of the IFOY AWARD 2022 have been announced: at the award ceremony in the BMW Welt in Munich, representatives of Jungheinrich, Locus Robotics, Noyes Technologies, robominds, SSI SCHÄFER and SYNAOS accepted the award, also known as the “Oscar of intralogistics”, from six laudators.

A laudatory speech was held by Steffen Bersch (Chairman of the Board of the VDMA Materials Handling and Intralogistics Association), Jan-Dietrich Hempel (Managing Director GARBE Industrial Real Estate), Raimund Paetzmann (Vice President Real Estate & Logistics Network Expansion at Zalando), Julia Jocher (Project Management Group7), Udo Schmidt (Managing Director Cascade Europe) and Dr Michael Nikolaides (Senior Vice President Production Network, Logistics, BMW Group).

The IFOY AWARD is considered the most important intralogistics award in the world. In 2022, 12 international companies with 14 products and solutions competed in the 10th round of the award. “10 years of the IFOY AWARD stand for 10 years of outstanding innovations,” emphasises jury chair Anita Würmser. “In 2022, the finalists have once again presented top products in the competition that will shape the future of intralogistics in the long term,” she continues.

Jungheinrich won the IFOY AWARD in the “Special Vehicle” category with its ERD 220i double-deck stacker. The truck sets new standards for a safe, optimally protected and yet super-compact electric pallet truck, judged the jury. The performance was first-class and challenged the competition, the jurors added.

The winner in the category “Automated Guided Vehicle (AGV/AMR)” was Locus Robotics with its Locus Robotics AMR Solution. The collaborative AMR, with which retailers, contract logistics companies, but also industrial companies can greatly improve their efficiency, scored points with the testers and innovation checkers due to its high degree of innovation and its high market relevance in the light of the rapidly growing online trade and the demand for cost-effective solutions to increase throughput.

A total of three young companies qualified for the final round in the “Start-up of the Year” category this year with their innovative products and solutions. The winner in the end was the Munich-based start-up Noyes Technologies with its first robotically operated, automated and highly flexible nano-logistics system Noyes Storage for urban logistics. The IFOY Innovation Checkers awarded the solution the highest possible number of points in the categories of market relevance, customer benefit, degree of innovation and functionality/type of implementation. The fact that customers from almost all industries can benefit from significantly improved space utilisation with the help of the system also impressed the test team and the jury.

For the 10th round of the global competition, the Robotics + Automation Association within the VDMA entered the “Robot” category at the IFOY AWARD 2022 as a sponsor. Here, the Munich-based company robominds won with its AI-based robobrain.NEUROS – an industrialised operating system for intelligent robotics. According to the jury, the market relevance of a manufacturer-neutral and reliable robotics operating system with support for AI-based processes can be classified as very high.

The “Integrated Warehouse Solutions” category is one of the top categories at the IFOY AWARD. In the final, SSI SCHÄFER prevailed with its IKEA Project Flat Pack Picking. With Flat Pack Picking, the company had implemented an automated and turnkey system solution for the safe and volume-optimised palletising of heavy and large items. The use of gantry robots enables the efficient handling of a very heterogeneous range of articles. The IFOY testers rated the solution as well-engineered and interesting – also for other industries.

This year’s winner in the category “Special of the Year” was SYNAOS with its SYNAOS IMS – Vehicle Localization for the complete localisation of transport vehicles. “The simple real-time localisation of all types of industrial trucks with the help of this very convincing localisation system helps customers on their way to the complete digitalisation of intralogistics,” judged the IFOY testers. In the IFOY Innovation Check, the solution scored points for its high market relevance.

The International Intralogistics and Forklift Truck of the Year (IFOY) AWARD honours the best intralogistics products and solutions of the year. It has established itself as an indicator of cost-effectiveness and innovation and is considered the definitive international innovation award in intralogistics due to its technical expertise. The basis for the decision is the three-stage audit – consisting of the IFOY test protocol comprising around 80 criteria, the scientific IFOY Innovation Check and the jury test. The decisive factor is that the nominees are not compared with each other, but with their competitor devices on the market.

On the occasion of the IFOY TEST DAYS, all nominees went through the IFOY test series in March at the Messe Dortmund exhibition centre. For the third year in a row, numerous potential buyers were also on site at the TEST CAMP INTRALOGISTICS. The winners of the IFOY AWARD are chosen annually by an international jury of trade journalists – the UK is represented by Logistics Business News Editor Peter MacLeod. All IFOY test reports and Innovation Checks of all finalists can be found for free use HERE.

The IFOY AWARD is sponsored by the Materials Handling and Intralogistics Association and the Robotics + Automation Association within the VDMA. IFOY partners are Messe Dortmund and leading forklift attachment manufacturer Cascade. The IFOY AWARD’s pallet partner is CHEP, a world market leader in the pooling of pallets and containers. The logistics real estate partner is GARBE, the logistics partner is LTG. Trailer partner is Fliegl Fahrzeugbau. Event partner is the BMW Group. The IFOY organisation is based in Ismaning near Munich.

The IFOY AWARD is under the patronage of Dr. Robert Habeck, German Federal Minister for Economic Affairs and Climate Action.

The application phase for the IFOY AWARD 2023 starts on August 1, 2022.

IFOY 2022 WINNERS IN BRIEF:

ERD 220i, Jungheinrich

Locus Robotics AMR Solution, Locus Robotics

Noyes Storage, Noyes Technologies

robobrain.NEUROS, robominds

IKEA Project Flat Pack Picking, SSI SCHÄFER

SYNAOS IMS – Vehicle Localization, SYNAOS

IFOY FINALIST FOCUS: NAiSE TRAFFIC by NAiSE

Posted on 30 June, 2022 by Keith McKinley

On the day the IFOY Award winners are named at BMW World in Munich, we look at the last of the finalists – NAiSE TRAFFIC by NAiSE in the Start-up of the Year category.

IFOY category: Start-up of the Year

Description

The NAiSE solution is essentially a manufacturer-independent control system for AGVs/AMRs with the unique feature that the entire intralogistics mixed operation is included in both traffic control and order distribution. This is made possible by the NAiSE RTLS localization network, which was developed and patented in-house: Radio sensors in the hall infrastructure enable precise localization and simultaneous near-real-time communication of and between the traffic participants (people, forklifts, tugger trains, AGVs/AMRs), using ultra-wideband technology that enables robust and reliable localization even in difficult industrial environments. The transparency gained from this enables the central software to do much more than the essential guidance control of AGVs/AMRs: due to past localization data, traffic analyses can be carried out on a regular basis, making conflict zones recognizable to the user, e.g. by means of heat maps. The bottlenecks and traffic jams in the flow of goods resulting from the conflict zones can then be solved playfully in the software by creating traffic zones. For seamless integration into the environment, gates are also controlled and fire alarm systems are integrated. Through the generic order interface, the integrated order manager receives the transport orders and transmits them to the appropriate participants as configured by the operator.

Summary

NAiSE TRAFFIC is the world’s only traffic and order management software for all participants in intralogistics. An elementary feature is that through the patented localization network (NAiSE RTLS) the entire mixed operation, consisting of people, forklifts, tugger trains and also AGVs/AMRs, is included in the traffic control and thus a more efficient and safer material flow in the warehouse and in production can be ensured.

CLICK HERE to watch a video.

IFOY TEST REPORT

NAiSE Traffic is the world’s only software for traffic and order management that includes all participants in the intralogistics process. The patented Real-Time Localisation System (RTLS) network includes all “traffic participants” in the traffic control and thus ensures the safe, efficient flow of materials in logistics and production.

To demonstrate its software, NAiSE is switching live from the test hall in Dortmund to the future factory “Arena 2036” at the Stuttgart headquarters. MAiSE will clearly demonstrate the functionality, added value and philosophy of its manufacturer-independent control system for industrial transport robots in material flow using diagrams, dashboards and heat maps. In contrast to VDA 5050, which is currently very popular and makes life easier for master controllers in particular, NAiSE follows a completely different way of thinking when it comes to traffic control. The Stuttgart-based company also integrates non-robots: people, forklifts, the pallet trucks – regardless of whether they are VDA-5050-compliant or not. NAiSE emphasises that it does not want to draw a line under VDA 5050, because the hybrid state, i.e. humans and robots, will still exist in warehouses and production for a long time to come. In addition, they do not want to take away the manufacturers’ intellectual property (IP), as they put it, that is their USP. At the manufacturer Omron, for example, this is the high degree of autonomy of the robots.

Despite all the really well-designed screen displays, NAiSE cannot do without “grounding”. In the perhaps 50 square metre test field we enter, there are three areas: In one, an AMR from Omron drives around, then there is an encounter zone, and in a third area, a VDA-5050-compliant transport robot, which is not specified in more detail at first glance, acts. And to make matters worse, a colleague with his sack truck keeps getting on my nerves, venturing into the area frequented by several participants for demonstration purposes. The tester also gets mixed in.

But how exactly does the guidance system work? In the self-developed, patented localisation network NAiSE RTLS, radio sensors in the hall infrastructure enable precise localisation and near-real-time communication of and between the traffic participants. Ultra-wideband technology (UWB) is used here, with the help of which objects can be located robustly and reliably even in difficult industrial environments.

The highlight of this is that regular traffic analyses can be carried out using localisation data from the past, which, for example, show conflict zones on the basis of heat maps. One can then resolve the bottlenecks and congestion in the flow of goods resulting from the conflict areas almost playfully by creating traffic zones. For seamless integration into the environment, gates are also controlled and fire alarm systems are integrated. Through the generic order interface, the integrated order manager receives the transport orders and transmits them to the appropriate participants as configured by the operator.

NAiSE also already has something to show: At Continental in Ingolstadt, for example, the material flow could be increased by 30 per cent, according to the company. But the system is also in productive use in China, in Germany still in Schwenningen am Neckar and at the automotive supplier Vitesco in Rheinböllen, a division of Continental.

IFOY Test Verdict

NAiSE Traffic is not only interesting because of the integration of really all potential “participants” in the warehouse, i.e. not only AGV or AMR, but also people and hand pallet trucks in mixed operations: the traffic and order management software also shines with the USP that it iteratively supports the person responsible for operations in adapting the material flow to the ever-changing circumstances. In the software tool, a bird’s eye view of the processes can be taken at any time and problem areas can be identified at an early stage with the help of analysis options.

IFOY INNOVATION CHECK

Market relevance: The NAiSE TRAFFIC software handles traffic and order management for various conveyor systems in intralogistics. Especially against the background of VDA 5050, the use of different vehicle systems at one location is on the rise. The software claims to be able to control the joint use of traffic areas by employees, industrial trucks with drivers, driverless transport vehicles and also autonomous mobile robots (AMR) within buildings, especially with localisation elements based on UWB technology. This task of traffic control is of outstanding importance for the efficient and safe realisation of transport processes for intralogistics, so that the market relevance of the solution is to be assessed as high

Customer benefit: The benefit for the user results from the possibility of being able to use different vehicle systems, whether manually guided or classically automated or autonomously controlled, on mixed-use routes. This makes it possible for the user to avoid conflicts in vehicle operation even with little effort. In particular, NAiSE TRAFFIC should be able to reliably prevent unsolvable mutual obstructions, so-called blockages, at intersections and at pick-up or drop-off points. NAiSE TRAFFIC cannot be used to further optimise the use of routes, as the respective decisions regarding the movements of the individual road users only become visible to the software through localisation.

Novelty: The consistent independence from individual providers is attractive, but is already offered by other software providers. In combination with the own UWB localisation system, however, a degree of novelty is achieved, as any vehicles and persons can be localised, provided they are each equipped with a UWB device.

Functionality / type of implementation: The functionality could be well understood on the simple test setup. The updating of the localised road users appears to be quite fast. Nevertheless, it has to be evaluated that the functionality is only given if all participants are equipped with a UWB localisation device and that this requirement can be safely realised in the daily operational routine. Compared to conventional software solutions for traffic and order management, the graphical user interface with the layout representations based on point clouds is solved differently. For regular users, however, this implementation does not appear to be suitable for ergonomic reasons, as intuitive orientation is not easy.

Verdict: Even against the background of VDA 5050, both the market relevance and the customer benefit are to be rated as high. The technologies used and the associated innovation, together with the implementation, can be described as good.

market relevance ++
customer benefit +
novelty +
functionality / type of implementation Ø
[++ very good / + good / Ø balanced / – less / – – not available]

For an overview of all the finalists, visit www.ifoy.org

CLICK HERE to find out more about NAiSE TRAFFIC – the world’s only traffic and order management software.

IFOY FINALIST FOCUS: Dynamic Wireless Charging for Intralogistics Vehicles by Magment

Posted on 28 June, 202225 July, 2025 by David Priestman

As we enter the final few days before the IFOY Award winners are named on 30th June at BMW World in Munich, we look at the penultimate finalist – Magment’s Dynamic Wireless Charging for Intralogistics Vehicles.

IFOY category: Start-up of the Year

Description

Patented magnetizable concrete in combination with proprietary winding and casting technologies enables production of robust wireless charging pads which integration of wireless charging infrastructure in industrial floors makes possible. Industrial floor electrification for dynamic wireless charging reduces or fully eliminates charging breaks of forklifts, AVGs and AMRs. Intralogistics EV fleets and battery sizes can be reduced generating overall savings in vehicle CAPEX costs while increasing productivity with up-times close to 100% (24/7), and decreasing OPEX by fully automating a dynamic EV charging process. MagPad is the name for wireless charging pad and multiple MagPads are creating dynamic wireless charging track called MagTrack.

Only DHL Supply Chain now deploys autonomous forklifts and pallet movers in more than 1,500 warehouses worldwide. With 24/7 operation, a fleet of just dozen these autonomous forklifts can handle more than a million pallets per year in just one facility. Magment is working tightly with autonomous forklift and pallet mover producers, industrial floor manufacturers and facility owners to implement dynamic wireless charging infrastructure and charge these vehicles while they are operating adding huge value on existing benefits of autonomous fleets operation.

Summary

Magment is working on cutting-edge wireless inductive charging infrastructure, reinventing the way EVs are charged with bold innovations in design, pioneering technologies, and strong global partnerships. Magment believes in emission free, electrified transportation and vehicles that can charge where they go and do not have to go to charge. Seamless, convenient and sustainable.

CLICK HERE to watch a video.

IFOY TEST REPORT

The Oberhaching-based start-up Magment is reinventing the charging of electric buses, electric forklifts and the like with the help of innovative technology. The company motto is: “Charge where you go and not go where you can charge!” The technical highlight: magnetic concrete is used to charge the electric vehicles.

The first two partners with whom Magment wants to implement dynamic charging of Automated Guided Vehicles (AGVs) are Jungheinrich and DHL at its Hamburg site. The innovation is based on the following rational consideration: the more inductive charging is achieved when driving over concrete, the fewer batteries and vehicles are needed. Currently, each vehicle has to be charged for at least two to three hours over the course of 24 hours. Electrification of industrial floors with dynamic wireless charging reduces or completely eliminates these charging pauses. Electric fleets in the intralogistics sector and also battery capacities can be reduced, which would significantly reduce capital expenditure on longer-term capital assets (CAPEX) such as these vehicles.

But what exactly is concrete charging all about? The patented magnetisable concrete, combined with proprietary winding and casting technologies, enables the production of robust inductive charging plates that allow wireless infrastructure to be integrated into industrial floors. Each of these one-metre-long charging plates (pads) incorporates 42 metres of copper cable. When inspecting the test set-up, Magment explains that the system can basically charge all vehicle battery voltages – with a maximum of 170 amps. According to the measurement display, the efficiency is more than 90 per cent. In the test set-up, two pads are laid under chipboards, over which a current collector drives to simulate the AGV.

The highlight of the set-up and the pads in general: at no point of the two MagPads, which form the dynamic wireless charging track MagTrack including the electronics as well as a coil and the corresponding electronics on the receiver side, does the charging curve of the oscilloscope show a drop in charging power. To realise this convincing concept, Magment is working closely with manufacturers of autonomous forklift trucks and pallet trucks, manufacturers of industrial floors and owners of warehouses. With the aim of implementing a dynamic and wireless charging infrastructure to charge vehicles during operation. The goal of the goal, so to speak: to bring productivity in the warehouse to almost 100 percent through operating times of the warehouse technology equipment.

And what contribution does the concrete make? The patented magnetisable concrete eliminates losses due to stray fields during wireless power transmission. At the same time, it enables a uniform transmission curve even in areas between two pads – which makes this technology unique. According to Magment, all competitors offer a stationary wireless charging system, but use ferrite-based inductive charging pads that are not robust and cannot be integrated into industrial floors. Magment says it is currently the only company in the world to offer dynamic wireless charging infrastructure for intralogistics vehicles. One advantage on the customer side is, of course, that there is no longer any need to reserve space for a charging area for the industrial trucks, another is the fact that continuous charging reduces peak power demand.

IFOY Test Verdict

Magment is about to revolutionise the market with its invisible technology that can be fully integrated into industrial floors for continuous, high-performance energy transfer to electrically driven industrial trucks. The system is suitable for dynamic and static charging. Due to the 24/7 availability of the devices, fewer AGVs are needed, so the TCO in the warehouse is reduced accordingly.

IFOY INNOVATION CHECK

Market relevance: The presented system by Magment shows a savings potential in terms of fleet reduction of different electric vehicles and battery size, both of which can be achieved by the dynamic charging system. For a common implementation, other aspects are also seen due to the significant changes in the overall system, which gives the market relevance an average rating. The charging track must be positioned in such a way that the vehicles pass over it frequently enough, otherwise the necessary floor coverage increases. Depending on the application, fluctuating demand for articles/goods can lead to a change in the heavily frequented areas, which can then result in necessary additional trips. Therefore, implementation may not be advantageous for all applications.

Customer benefit: The dynamic charging system has clear advantages for a harmonised overall system. Charging times in which the vehicles are not available are avoided, which means that the number of vehicles can be reduced. In addition, batteries can be designed smaller, which reduces overall costs and contributes to sustainability. Designated areas for stationary charging systems are eliminated and productivity can be increased as charging takes place during the work task.

Novelty: The system presented is impressively innovative and makes excellent use of physical principles. The magnetisable concrete with ferromagnetic components ensures an almost constant charging current along the charging plate. This is undoubtedly a new technology and, together with the robust integration in industrial floors, a useful innovation.

Functionality / type of implementation: The concept of the new technology was presented very well by a demonstration set-up and showed the behaviour of the charging current when passing over the charging plates in an excellent way. With the associated components, some of which were still prototypes, the planned overall construction became clear, which promises a high level of robustness due to the integration in the industrial floor.

Verdict: Innovation is a top priority at Magment. In the right field of application, this is a promising technology that fits in perfectly at the IFOY AWARD.

market relevance Ø
customer benefit +
novelty ++
functionality / type of implementation +
[++ very good / + good / Ø balanced / – less / – – not available]

For an overview of all the finalists, visit www.ifoy.org

CLICK HERE to find out more about Magment’s Dynamic Wireless Charging for Intralogistics Vehicles.

IFOY FINALIST FOCUS: DSR (Descent Speed Regulation) by STILL

Posted on 14 June, 2022 by David Priestman

Continuing with our run-through of each of the IFOY Award nominated finalists ahead of the winners announcement on 30th June at BMW World, we look at STILL’s DSR (Descent Speed Regulation) solution, the third of three entries in the Special of the Year category.

IFOY category: Special of the Year

STILL Descent Speed Regulation (DSR) is a three-stage assistance system for platform trucks and tractors which facilitates safe descent for the driver, especially with heavy trailer loads. Depending on the configuration, it manually or automatically regulates the speed of the vehicle to a value that can prevent dangerous situations.

Description

DSR is an assistance function that supports operators of towing and transport vehicles in their daily work. Especially when driving downhill, there is a risk of dangerous situations. DSR can prevent these.

The first configuration level is DSR Basic. Here, the driver must activate the system manually via the STILL Easy Control operating unit. When activated, a previously set maximum speed is maintained, even when driving downhill. The hydraulic service brake is actively engaged if the vehicle threatens to become too fast when travelling downhill. Even if the driver does not step on the brake pedal, the vehicle is braked.

The second configuration level is DSR Eco. In this configuration, the system does not have to be activated manually, but is always on stand-by in the background. The system activates automatically when a slope is detected. With DSR Eco, a gradient indicator is continuously shown in the display. The speed is limited to one predefined value when a slope is detected.

The third configuration level is DSR Premium. Here, in addition to DSR Eco, the load weight is estimated and shown on the display. With DSR Premium, the vehicle regulates the speed when driving downhill depending on the slope and the towed load. So, the speed is not set to a predefined value, but to the appropriate value for the respective situation. This allows for optimum performance coupled with maximum safety at all times.

CLICK HERE to watch a video.

IFOY TEST REPORT

With the Descent Speed Regulation, DSR for short, Still introduces a unique assistance system for trucks and tuggers that facilitates safe driving on ramps even with heavy trailer loads. The system monitors and regulates the speed of the vehicle – manually or automatically, depending on the configuration. There are three different versions: DSR Basic, DSR Eco and DSR Premium.

With DSR Basic, the driver activates the system manually via the Still Easy Control operating unit. When activated, a preset maximum speed is maintained, even when driving downhill. The hydraulic service brake is actively activated as soon as the vehicle threatens to go too fast when going downhill. Even if the driver does not depress the brake pedal, the vehicle brakes. DSR Eco goes one step further. In this version, the programme does not have to be activated manually, but is always on stand-by in the background. It is activated automatically when an angle of inclination is detected.

The slope and load are calculated by evaluating the speeds and torques of the drive units and the data from an acceleration and speed sensor. With DSR Eco, a slope indicator is constantly shown on the display. If an incline is detected, the speed is automatically limited to a preset value.

The luxury version, DSR Premium, was nominated for the IFOY AWARD. Here, in addition to DSR Eco, a load evaluation is also carried out and shown on the display. With DSR Premium, the vehicle regulates its speed when driving downhill depending on the gradient and the load being towed. The speed is therefore not reduced to a predefined value, but optimally adapted to the respective situation. In this way, the vehicle always achieves the best possible performance with maximum safety.

The maintenance-free, hydraulic oil-bath brakes on the front and rear axles operate electrohydraulically. The brake on the front axle is designed as a brake-by-wire system. The brake demand is registered via a potentiometer on the brake pedal, whereupon the braking process is initiated hydraulically via an electric pressure-reducing valve.

The electrical control of this pressure valve makes it possible to brake very precisely and also to actively intervene in the service brake. Thanks to this technical concept, the DSR system can regulate the speed when driving downhill – even without active intervention by the driver.

DSR reduces the need for the driver to apply the brakes and thus the risk of overheating. In addition, the system monitors driving behaviour, which significantly reduces the risk of unsafe situations.

IFOY Test Verdict

STILL Descent Speed Regulation (DSR) is a world first. The unique assistance system supports safe driving on inclines and improves driving characteristics at the same time. Depending on the version, DSR recognises the exact gradient and the current load weight. The speed is then automatically adjusted to the respective conditions. Pulling sometimes heavy loads becomes much safer with this system.

IFOY INNOVATION CHECK

Market relevance: The development of the Descent Speed Regulation (DSR) supports very well the increasing safety requirements of the users and helps to prevent consequential costs due to negligent driving behaviour. The possible effects of exceeding the maximum permissible speed of heavy tow trains are high and therefore actually justify a very high market relevance. It should be noted, however, that inclined tracks for tow trains are not very widespread and the development of DSR does not have to be applied everywhere.

Customer benefit: The indisputable benefit results from the safe and reliable detection of steep sections and the load-dependent reduction of speed. Systems for general speed reduction lead to a loss of throughput and to a reduction in the motivation of drivers, who feel patronised by such a system and may switch it off. The increased safety for the driver, but also for uninvolved road users, is just as high as the consequential costs for vehicles or the transported goods due to serious accidents. The benefit is limited at best, since material flow planning already tries to avoid downhill stretches, which is why they occur comparatively rarely in the field of application.

Novelty: The safe and reliable detection of both the inclined sections being travelled on and the attached load has never been solved in a comparable way before. The successful combination of existing sensor principles and measuring sections as well as their evaluation in a computer unit, together with a powerful actuator system, result in a very good innovation.

Functionality / type of implementation: The aforementioned recognition and evaluation of the driving characteristics leads to an impressive driving behaviour, which could be experienced in a comprehensible way on a driving route with a 10 per cent gradient. The driver information display shows the driving mode and the determined parameters and thus makes the behaviour of the assistance system easy to understand.

Verdict: The product provides an innovative solution to avoid accidents by determining the actual towing weight and the actual inclination of the driving path. It is not relevant for all users, but helps safely and well on existing downhill stretches.

market relevance +
customer benefit +
novelty ++
functionality / type of implementation +
[++ very good / + good / Ø balanced / – less / – – not available]

For an overview of all the finalists, visit www.ifoy.org

CLICK HERE to find out more about STILL’s DSR (Descent Speed Regulation) solution.

IFOY FINALIST FOCUS: DSR (Descent Speed Regulation) by STILL

Posted on 14 June, 202225 July, 2025 by David Priestman

IFOY category: Special of the Year

Description

CLICK HERE to watch a video.

IFOY TEST REPORT

IFOY Test Verdict

IFOY INNOVATION CHECK

market relevance +
customer benefit +
novelty ++
functionality / type of implementation +
[++ very good / + good / Ø balanced / – less / – – not available]

For an overview of all the finalists, visit www.ifoy.org

CLICK HERE to find out more about STILL’s DSR (Descent Speed Regulation) solution.

IFOY FINALIST FOCUS: Pallet Classification System from SICK

Posted on 10 June, 202225 July, 2025 by David Priestman

The next in our look at all of the IFOY Award nominated finalists ahead of the winners announcement on 30th June at BMW World is a focus on the PACS (Pallet Classification System) from SICK.

IFOY Category: Special of the Year

Description

SICK’s deep learning-based pallet identification system PACS is used for automated recognition of pallet types. The automated recognition simplifies the process of automatically tagging different pallet types and can be easily integrated in many locations due to its compact design and small footprint.

The hardware of the system consists of two colour cameras for image acquisition, a light barrier array for triggering, and a controller for processing the data and executing the trained neural network. Optionally, other SICK sensors (e.g. barcode scanners) can be integrated to realize additional tasks.

The software tools SICK Appspace and dStudio enable image recording, training, classification and execution of the trained network even without in-depth knowledge of programming or machine learning. Optionally, further SICK sensors can be integrated, which can take over additional tasks..

Innovation
Unlike conventional image processing solutions, the use of deep learning technology in the SICK solution does not require detailed programming knowledge, as the system learns from concrete examples. This has enabled SICK to make pallet identification comparatively simple for the customer. Where the use of trained neural networks would normally require in-depth machine learning knowledge, SICK developed dStudio, a training software that includes a guided process flow. This has made it possible to reduce the large number of setting options of conventional solutions to a minimum. This simplification allows users to focus on their specific application – and not on the technology.

In interaction with SICK Appspace and SICK’s know-how in the field of sensor applications, the deep learning-based pallet identification system was developed – a complete solution with maximum customer benefit from a single source..

Market relevance
Customers from various industries lose a lot of money every year because deposit pallets are incorrectly assigned in incoming goods. The SICK system helps them avoid losses, save resources, and significantly increase their process quality. A previously resource-intensive and error-prone manual process can be automated in this way. Higher reliability, increased efficiency, and transparency are just some of the benefits ensured by pallet identification from SICK.

With this innovative solution, customers from all industries and across all sectors can optimize their pallet handling and relieve the strain on their incoming goods resources.
Moreover, the market may be significantly larger from the user’s point of view: The technologies used not only lend themselves to pallet type identification applications but can also offer significant benefits in many other areas.

Main customer benefits
The advantages of deep learning-based pallet identification PACS are evident in the creation, deployment and maintenance of the solution.

Time and complexity can be saved in the creation of the solution compared to the use of traditional image processing. By using trained neural networks, it is possible to identify the branding of pallet types with a high success rate, even if the quality is subject to large deviations. These deviations are taken into account in the training process and are learned, thus increasing the robustness of the evaluation.

The use of the solution not only enables an increase in efficiency and throughput, but also an increase in process quality and traceability. Employees are relieved and can concentrate on processes with higher added value.

The space-saving design means that the system can also be integrated in tight assembly positions. The use of standard sensor technology makes maintenance and servicing of the system very cost-effective.

Summary

One of SICK’s customers was faced with the problem that its employees in goods receipt had to manually determine whether incoming pallets belonged to a pallet pool and were pawned accordingly. Until now, this was an additional task in goods receiving that was resource-intensive and error-prone.

With deep learning-based pallet identification PACS (Pallet Classification System) from SICK, customers are given the opportunity to automate a previously laborious and manual process based on a modular kit of hardware and software.

The building block is based on SICK Appspace and dStudio. Appspace is an innovative approach for the realization of powerful apps on SICK sensors, dStudio is a web-based tool for the classification of images based on artificial neural networks, which can be used on SICK sensors. The construction kit can also be used for other tasks in the field of image processing.

IFOY TEST REPORT

Is it a Euro, a Chep, a UIC or perhaps a completely different pallet? Wrong deposit pallets, which are wrongly regarded as “real” deposit pallets at goods receipt and are accepted without complaint, cost companies thousands of euros every year. The PACS application from Sick now wants to put an end to this by enabling the automatic deposit of different pallet types.

PACS – this acronym stands for “Pallet Classification System”, i.e. a recognition system that uses images to identify the type of pallet. Four pictures of the pallet feet are necessary for this, the fifth picture is taken from above and shows what is on the pallet. The whole thing is usually integrated into the stationary conveyor system directly in the goods receiving area; for the test setup in Dortmund, a Sick employee still had to manually feed the incoming pallet onto the camera technology for demonstration purposes. The aim of the event is to provide companies from industry and trade with full transparency in goods receiving and consequently in the flow of goods. Because wrong deposit pallets cost companies a lot of money.

Until now, employees had to manually determine whether a pallet was “good” or “bad” when it entered the factory gate – an additional task that was error-prone and resource-intensive. With the PACS deep-learning pallet identification system, customers are given the opportunity to automate this process on the basis of a modular system of hardware and software. The financial aspect is the direct benefit of this classification system. But there is also an indirect effect, in fact several, that make this solution so interesting. Because incorrect pallets in the system also lead to damage and expensive downtimes of the conveyor system more often than average. Another, even more valuable aspect is more transparent processes by connecting the goods to the load carrier. And finally, no specialised personnel is required to operate the PACS system.

How does PACS work? The hardware of the system consists of one or more cameras with which the images for the system are taken, a light barrier arrangement for triggering and a controller for processing the recorded data and for executing the trained neural network. Even without in-depth knowledge of programming or machine learning, the software tools AICK Appspace and dStudio enable image recording, training, classification and execution of the trained network. Optionally, even further Sick sensors can be integrated, which can take over additional tasks. No programming knowledge is required because the system learns from concrete examples. In this way, Sick was able to make pallet identification comparatively simple for its customers.

Because Sick uses trained neural networks for its solution, the brandings of the individual pallet types can be recognised with a high success rate – even if their quality is subject to large deviations. The training process takes these deviations into account, learns them and thus increases the robust evaluation. Due to its space-saving design, the PACS system can also be integrated in narrow assembly positions. Because Sick uses standard sensor technology for its solution, the system is very cost-effective to maintain and service.

IFOY Test Verdict

With an estimated 500 million Euro pallets in circulation, not to mention the other types, the savings potential through PACS is in the tens of millions. But also companies that regularly use, for example, mesh pallets or small load carriers in their intralogistics can use PACS. The application range of the very reliable pallet classification system covers a broad spectrum: retail, freight forwarding, automotive, mechanical engineering and many other industries.

IFOY INNOVATION CHECK

Market relevance: Given the enormous quantity of goods of all kinds handled on different types of pallets, the Pallet Classification System from Sick is expected to have a very high market relevance. Optimising pallet handling can be beneficial in many areas for a large number of customers. The savings potential in terms of the automation of a former manual work process and the controlled labelling lead us to expect a high level of interest.

Customer benefit: Users ultimately benefit from the cost savings. Pallets do not have to be recorded manually when goods are received and can be automatically recognised and classified with the system. Deposit pallets can be assigned with high accuracy, which brings further cost-saving potential for companies. The expandability of the artificial neural network (ANN)-based system with regard to defect detection should also be emphasised. Faulty pallets can be detected in time, which allows one to take action before subsequent work processes and avoid possible downtimes.

Novelty: Image processing by means of ANNs is not new in itself, but here in practical application it represents an innovative solution for pallet classification. The system is well equipped for the future and can be extended for new pallet types up to the digital pallet (e.g. iPAL). Additional characteristic data can be integrated into the registration and passed on for the customer-specific systems.

Functionality / type of implementation: The system appeared very well implemented and can be flexibly positioned on the conveyor system. The image capture is limited to the lateral capture of the pallet. The detection accuracy depends on the trained ANN in the system, which can be retrained at any time, e.g. for new pallet types.

Verdict: The Pallet Classification System from SICK is undoubtedly a nominee for the IFOY AWARD that promises high savings potential for many areas.

market relevance ++
customer benefit ++
novelty +
functionality / type of implementation +
[++ very good / + good / Ø balanced / – less / – – not available]

For an overview of all the finalists, visit www.ifoy.org

CLICK HERE to find out more about SICK.

IFOY FINALIST FOCUS: SYNAOS IMS Vehicle Localization

Posted on 2 June, 202225 July, 2025 by David Priestman

Continuing with our run-through of each of the IFOY Award nominated finalists ahead of the winners announcement on 30th June at BMW World, we look at the SYNAOS IMS Vehicle Localization solution from SYNAOS.

IFOY Category: Special of the Year

Description

The seamless localization of transport vehicles is one of the most important steps towards fully digitized, highly efficient intralogistics. As soon as the position of every manually guided vehicle is known at all times, numerous new potentials arise: Important KPIs such as fleet utilization can be recorded, heat maps can be created and layouts can be optimized. In addition, drivers can be navigated optimally through production facilities and logistics centres, with delays being detected at an early stage. Furthermore, flexible, near real-time transport order planning can be realized. Also scan-free processes are made possible in this way, further simplifying workflows.

However, so far these and other use cases are not or only very rarely implemented – previous localization solutions are simply too expensive and it is not possible to achieve any savings. SYNAOS therefore pursues a modern approach: Intelligent software combined with cost-effective hardware allows precise and robust vehicle localization. For this purpose the sensor kit, which holds a stereo camera and a powerful embedded computer, is attached to the vehicles. This comparatively inexpensive combination enables the implementation of many use cases that were previously unprofitable.

Innovation
Current approaches for localizing vehicles in intralogistics are based on UWB (ultra wide band) or LIDAR (light detection and ranging). However, both techniques are associated with high costs – they require high and long-term investments. UWB requires a huge infrastructure investment and is very difficult to change or extend. In addition, the accuracy of localization depends on the illumination on site. LIDAR on the other side is achieving a very high accuracy. But this is not necessary for 95 percent of the applications in intralogistics. Another disadvantage is the high commissioning effort, because a map has to be created first.

SYNAOS IMS – Vehicle Localization, on the other hand, uses cameras and a technology called “visual odometry”. This technology is known from the fields of robotics and autonomous driving and is applied in logistics for the first time according to SYNAOS. In addition, SYNAOS uses simple markers at frequented locations in the hall so that the system has a global reference from time to time. This makes the installation of the system simple and commissioning uncomplicated, as no map has to be created. Only some markers are needed and the environment can change at any time without affecting the localization.

Market relevance
Every intralogistics vehicle providing power supply and a mounting option can be equipped with the SYNAOS IMS – Vehicle Localization, enabling precise localization in real time. Thereby, complete fleets can be digitized retrospectively. The system increases the efficiency of fleets and saves costs. The market for this solution is therefore huge: In 2020, about 1.5 million forklifts were produced. In addition, there is a correspondingly high number of already existing vehicles in the field. But very few of these vehicles already have their position recorded, nor are they digitally mapped.

Upgrading manual transport systems with the localization solution from SYNAOS is also highly relevant for the mixed operation of autonomous and manually guided vehicles. The entirety of transport orders for intralogistics can be controlled precisely and more efficiently. In addition, autonomous guided vehicles can be better controlled with known positions of the manually guided vehicles. For example, they can be slowed down when a forklift comes close, avoiding an emergency stop at an intersection. Enabling or improving the mixed operation of manual and autonomous vehicles also supports the gradual automation of intralogistics processes.

Main customer benefits
Customers benefit from easy-to-use, real-time localization for any intralogistics vehicle. However, SYNAOS IMS – Vehicle Localization is not only quickly installed, but also easy on the budget. Despite a comparatively low price, the solution achieves a very high accuracy. The position of the vehicle is calculated by strong computer vision algorithms from the images of the camera. Apart from an accelerometer, no other input sources are required. The complex creation of a map is also not necessary, since SYNAOS IMS – Vehicle Localization additionally uses simple markers for orientation, which are placed approximately every 100 meters in the environment. The solution is therefore extremely flexible and can be used in any intralogistics scenario.

All image processing takes place locally on the embedded computer – no sensitive data needs to be transferred to the cloud. The image data captured by the camera is immediately discarded after processing. Furthermore, communication is always transparent and future-proof thanks to compatibility with a standardized industrial interface.

Summary

The position of forklifts and other manually guided vehicles in intralogistics is usually unknown. This is now changing with SYNAOS IMS – Vehicle Localization: A camera-based sensor kit for the cost-efficient localization of manually guided intralogistics vehicles. SYNAOS uses state-of-the-art computer vision technology as enabler for its accurate and robust location system that is easy to install and scale.

CLICK HERE to watch a video.

IFOY TEST REPORT

What good is all the digitalisation if there are always “blind spots” in the company. One such blind spot is the fact that most of the forklift trucks that drive around in companies are still controlled manually and are therefore not digitised or only rudimentarily digitised. With the SYNAOS IMS – Vehicle Localisation system, a camera-based sensor kit ensures their cost-efficient localisation – using state-of-the-art computer vision technology.

SYNAOS is a software company, but has decided to build a small hardware. A small black box (19 x 12 x 6 centimetres) can be found at the demo set-up in Hall 3 of the Dortmund Trade Fair. It is screwed onto a child’s forklift and projects its images onto a screen.

The manufacturer has dedicated itself to eliminating the gaps in the localisation of manually controlled industrial trucks of all kinds: So it’s all about indoor localisation of industrial trucks. 95 per cent of companies have forklifts in use, but they are rarely well integrated into the value chain: Currently, only the transport order is digital; the forklifts themselves are not digitalised. As a result, there is no knowledge of where a forklift is located. There are forklift localisation technologies, but they are often not used. There is a reason for this: ultra-wideband or lidar technology are simply too expensive. Speaking of lidar: the system is already too accurate, as if one were shooting at sparrows with cannons.

With the new system from SYNAOS, which works with so-called “markers”, a Localisation-as-a-Service (LaaS) tool, it’s different: Everything is already included in the price and the detection comes to an accuracy of about 25 centimetres. So it’s not just about the “little box” on the test set. For 1,980 euros a year per truck, that would be relatively low costs for admittedly standardised electronic components that can easily be bought at electronics stores: But the intelligence is in the software – plug and play.

You can create transparency in a flash with SYNAOS IMS – Vehicle Localisation: Where in the warehouse is busy? What are the braking distances? Where are people driving around without a driving order? Even the truck that is always running late can now finally be pointed out. In short: you can observe the fleet utilisation exactly. And a very big USP compared to the conventional storage method is that the forklift only reports the position where it has driven a pallet; scanning the pallet or the products on it is no longer necessary.

SYNAOS expects CE certification in a few weeks. The already mentioned indoor accuracy of 25 centimetres is achieved with markers every 100 metres. The “little black box” operates with a power consumption of 7 watts and transmits its camera data – 15 images per second – via WiFi for evaluation using computer vision algorithms. Apart from an acceleration sensor, no other input sources are required. In times of increasingly important cybersecurity, this is perhaps not entirely unimportant: the entire image processing of the system takes place locally on the embedded computer; no sensitive data need to be transferred to a cloud. After the camera’s image data has been processed, it is immediately discarded.

IFOY Test Verdict

The simple real-time localisation of all types of industrial trucks with the help of this very convincing localisation system helps customers on their way to the complete digitalisation of intralogistics. It is very easy to record fleet utilisation, but also to create heat maps for critical points in the warehouse or optimise warehouse layouts. The basic tenor: inexpensive hardware works together with intelligent software. Every industrial truck with a power supply and a mounting option can be equipped with the SYNAOS IMS – Vehicle Localisation sensor kit – a huge market.

IFOY INNOVATION CHECK

Market relevance: The localisation system was developed in order to retrofit forklifts with a sufficiently accurate, cost-effective and scalable solution for position tracking and to integrate it into digital control processes. With an annual production of approximately 1.5 million forklift trucks and a minimum service life of 10 years, there is a very large market with a high demand for digitalisation of all players in the warehouse, also driven by the trend towards mixed operation with AGVs.

Customer benefit: Users benefit from the fast set-up, almost without adapting the infrastructure, as well as the easy usability of the system. As a result, the solution scales from quantity 1 without significant investment costs, as it is offered as Localisation-as-a-Service at a reasonable price. In use, SYNAOS enables the user to perform statistical analyses for fleet utilisation and process optimisation, digital order control and monitoring, optimised driving behaviour of AGVs in mixed operation, navigation of forklifts in the warehouse as well as automatic scanning processes for goods booking. Unlike compact UWB (ultra-wideband) systems, however, SYNAOS can only locate vehicles, not people.

Novelty: The localisation of intralogistic vehicles on the basis of visual odometry, i.e. relative localisation via stereo vision with occasional absolute referencing via markers, is a novelty in the industry. However, the technology itself is not completely new and has already proven itself in autonomous driving. Advantages over the usual laser scanner-based methods with a map are the lower costs as well as the simplicity and robustness of the approach even in highly dynamic environments. Compared to UWB-based solutions, the advantage lies in the low need for adaptation of the infrastructure and the low investment costs. The innovation value consists in a solution that is appropriately balanced between localisation accuracy (approx. 25 centimetres) and costs.

Functionality / type of implementation: The solid test setup of the sensor kit with integrated computing unit convincingly demonstrated the functionality of the system. The energy-efficient retrofit kit requires only a power supply and can be integrated via the WiFi infrastructure. SYNAOS offers its own order and fleet management, but can also connect to other systems via VDA 5050. The operating interfaces are user-centred and the closed sensor system does not disclose any images to the outside for data protection reasons, but will enable new additional functions in the future. It is still not clear how much maintenance is required with regard to contamination of the camera sensors.

Verdict: The forklift market is a lucrative market for SYNAOS in the long term. The customer benefit is high due to improved order status information, statistics and optimised traffic flow guidance. The novelty of the reliably and robustly implemented plug&play system is given in logistics.

market relevance ++
customer benefit +
novelty +
functionality / type of implementation ++
[++ very good / + good / Ø balanced / – less / – – not available]

For an overview of all the finalists, visit www.ifoy.org

CLICK HERE to find out more about SYNAOS.

IFOY FINALIST FOCUS: Extension of Hase Safety Gloves’ automated warehouse by STILL

Posted on 31 May, 202229 July, 2025 by David Priestman

Our second finalist in the Integrated Warehouse Solution category of the IFOY Award – which we are showcasing ahead of the winners announcement on 30th June at BMW World – is the extension of the automated warehouse of Hase Safety Gloves GmbH by intralogistics expert STILL.

IFOY category: Integrated Warehouse Solution

Hase Safety Group sets course for growth: Automated industrial trucks are also very flexible in combination with variable goods transfer. One example is the expansion of the automated warehouse at Hase Safety Gloves GmbH. There, the STILL industrial trucks were replaced by new automated, more powerful vehicles with telescopic forks. Newly programmed route optimisations also contribute to the increase in performance. STILL expanded the racking system to a total of 10,000 pallet spaces.

Customer: Hase Safety Gloves GmbH

Realisation Phase:
From: 2021-05-31
To: 2021-10-30

Description

For more than 70 years, the production of work gloves has been the core business of Hase Safety Group AG in the Frisian town of Jever. In 2013, the German company celebrated 75 years of company history. Due to the growth of the Hase Safety Group, the existing space and handling capacities were no longer sufficient. The task was therefore to achieve greater storage and transport efficiency. One particular challenge was the conversion during ongoing operations. Until today, the course is clearly set on growth. That is why an extension was recently built. It houses new logistics areas, an innovation centre for customer training, product development and product presentation.

Theodor Wagner, CEO of Hase Safety Group AG, emphasises: “This is the only way we can meet the growing demand for new products. More turnover of goods for our Europe-wide customer business also requires more storage capacity as well as efficient and economical warehousing.”

More productivity through more automation
To keep distances short, the various glove articles are packed in cartons and stored neatly by type on pallets in the narrow-aisle warehouse according to the ABC analysis. For safe and independent movement of the vehicles, all AGVs (Automated Guided Vehicles) navigate with rotating laser scanners that constantly measure the distances to the installed reflectors. Three MX-X very narrow aisle trucks and six EXV-SF high lift stackers of the latest generation were each equipped with STILL’s iGo Systems automation kit.

At the goods receipt of an overseas container, the cartons with new goods are palletised by Hase employees using a telescopic conveyor belt and a vacuum lifting aid and distributed to the goods receipt locations according to type. Maximilian Engels, project manager and IT administrator at Hase Safety, explains: “We largely automated the processes in the goods receiving area. By manually scanning the storage locations as well as the articles, the automated storage processes are now triggered in our IT system.”

EXV high lift stackers pick up the finished pallets and drive them through the contour check. There, the pallet is measured to see if it is too long, too wide or too high. If successful, an EXV moves the pallet to the transfer rack in the narrow-aisle warehouse. There it is picked up by one of the automated MX-X high-bay stackers and stored in the assigned storage location.

In the case of a retrieval, an MX-X transports the respective pallet to the transfer station. The pallet is then picked up by the EXV and transported either to the transfer rack of the manual picking warehouse or directly to the shipping lanes of the trucks. Once the storage and retrieval operations have been completed, the AGVs automatically move to their waiting positions. All MX-X are equipped with telescopic forks, as the aisles at Hase are significantly narrower and thus not suitable for high bay stackers with swivel traverse forks. By using telescopic forks, both the storage density and the storage capacity are higher.

Identical components, controls and interfaces turn the trucks into high-performance AGVs. “One effect of the route optimisations is a lower number of transport orders and, as a result, less movement of the AGVs. This has also significantly improved safety in the warehouse. Thanks to the close cooperation between our team and the STILL project managers, we were able to successfully reorganise both the software and the hardware of our automated warehouse despite the Corona pandemic. Now we are well prepared for the challenges that lie ahead in the near future,” emphasises Maximilian Engels.

Autonomous charging of the vehicle batteries
The state-of-the-art photovoltaic system on the more than 10,000 quare metre-sized roof supplies green electricity to charge the forklift batteries. Lars Lemke, project manager from STILL’s Bremen branch points out: “To charge the batteries, the AGVs move to their charging stations independently. Without having to connect a cable, the battery is charged simply by contact with the ground. This is another highlight: because now the AGVs can charge their batteries autonomously at night and without additional personnel.”

One-shift operation still possible
The overseas containers from Bremerhaven are not only delivered during the day, but also in the evening. The experienced entrepreneur Theodor Wagner clarifies: “With the reorganisation of our automated warehouse, we can now also carry out automated storage in the evenings or overnight without the need for staff. This is an important requirement for the new processes. Even with constantly increasing demands on the market, we can continue to maintain our one-shift operation with the new system.”

Maximum flexibility in the scalable automated warehouse
Due to the scalability of the automated warehouse, it is possible to react quickly and flexibly to larger capacity requirements with additional AGVs. For the demand in the near future, a total of 10,000 pallet storage locations are now available. The fact that the AGVs can also be operated manually for special storage processes underlines the flexibility of the automated warehouse.

Summary

With the iGo automated warehouse from STILL, the modern distribution centre is ideally equipped to meet the future requirements, including those of other medium-sized companies. Customer requests and the requirements of major customers are thus fulfilled and the products are delivered across Europe, promptly and in a timely manner. “The first wave of logistics automation started back in 2010, and in recent years we have steadily expanded our automated warehouse and brought it up to date with the latest project. For more than 30 years, we have had a reliable partner at our side in STILL, who very quickly turns our ideas into reality,” summarises Theodor Wagner. Once again it shows that automation is an issue for companies of all sizes and has now finally arrived in the SME sector too.

CLICK HERE to watch a video.

IFOY TEST REPORT

With the help of Still, Hase Safety Gloves has expanded the system of its automated warehouse and made the processes more efficient – during ongoing operations. Although four to five jobs were replaced by automating the system, 15 new jobs were created at the same time by expanding the warehouse by 200%.

80 employees, 70 of them at the headquarters in Jever, take care of incoming and outgoing work safety clothing at Hase Safety Gloves, which mainly arrives by container from the Far East. Of the 12,000 square metres of warehouse space at Hase, around 7,000 square metres alone are now automated, and of the total 13,000 storage spaces in the warehouse, just under 7,000 spaces can be attributed to automation. A 10,000 square metre photovoltaic system on the roof is also used to charge the forklifts used in the warehouse. Speaking of forklifts: Hase successfully operates according to the “mixed operations” principle: Forklifts and staff can meet each other, and the use of protective fences has been deliberately dispensed with.

When employees place a filled pallet on a place in the staging lane after goods receipt, this simultaneously means a transport order for a still unit – it goes off to the warehouse or cross-docking directly to goods issue. At Hase, there is automatic whole stock removal, but also manual order picking. Until this happens, the pallet first goes through a so-called contour check: a gate with a laser curtain that eliminates tolerances of the pallet so that the automatic warehouse does not store a “brake block” – otherwise the system stops. If an error is detected, the pallet is immediately forwarded to the “not right” location and the problem is eliminated. Hase uses three automated MX-X narrow-aisle stackers and six EXV-SF high-lift trucks of the latest generation, all of which are equipped with Still’s iGo Systems automation kit. The EXVs pick up the sorted palletised goods at the goods-in location and take them to the transfer rack in the narrow-aisle warehouse, where they are picked up by one of the automated MX-X units and stored in the assigned bin location. For retrieval, this process happens in reverse order. Once the AGVs have done their work, they automatically move to their waiting position.

A novelty for Hase: a changeover aisle in the middle of the system, which, together with a spray wall, replaces the otherwise necessary firewall, enables the forklifts to move simultaneously from one racking aisle to another without having to return to the beginning of the racking. In the manual area, the forklifts always run in single-shift operation. Overnight, they are then autonomously recharged according to the “opportunity charging” principle, using lead-acid batteries, which are more economical than lithium-ion batteries in this application. The racking aisles at Hase can be much narrower than is normally the case: compared to the use of high-rack forklifts with swivel reach forks, the MX-Xs equipped with telescopic forks require significantly less space, which has a beneficial effect on storage density and capacity.

Because the overseas containers from Bremerhaven are not only delivered during the day, but also in the evening, it is an advantage for Hase that with the reorganisation of the automatic warehouse, goods can now be stored automatically in the evening hours or at night without the need for personnel. This means that the existing single-shift operation can continue to be maintained.

IFOY Test Verdict

With its automation solution, Still has brought Hase up to the state of the art and made it fit for the future. With the iGo automated warehouse solution implemented at Hase, other medium-sized companies can also streamline their processes and bring them up to date. Automation, and this has been impressively demonstrated by Still, is a topic for (almost) any size of company.

IFOY INNOVATION CHECK

Market relevance: The expansion of existing warehouse locations is a frequent case in practice. Changes in the company’s own products or production processes, but perhaps even more so the changed behaviour of customers with a focus on product availability and short-term delivery, often make changes necessary. Both the structure and the processes can be affected by changes. The example at the Hase company shows a special case, as the possibilities for adjustments in the layout were very much limited by the available floor space for extensions. In addition, the owner put the unconditional will to automate first, whereas the economic efficiency of an application is the highest priority for most users. For the above reasons, the market relevance can therefore be rated as good, as the solution cannot be transferred to most extension cases without restrictions.

Customer benefit: Measured against its own objectives, the customer Hase has certainly achieved its goals to a high degree. With regard to the general case, however, a limitation to a good customer benefit results from the previously mentioned reasons.

Novelty: The specific expansion of the warehouse at Hase is well solved and the implementation with state-of-the-art vehicles is also at the current level of available technologies. The innovation results from the appropriate combination of the known well-functioning trades in a very limited environment. However, similar solutions could be achieved before with available equipment.

Functionality / type of implementation: The many limitations of the extension in the existing building were well taken into account in the realisation of the solution. The solution offers many functions for the operator and provides him with alternative uses of the vehicles as redundancy or to absorb power peaks.

Verdict: The expansion in the existing stock is impressive and the implementation with state-of-the-art vehicles is well solved. The innovation results from the good combination of the known well-functioning trades in a very limited environment.

market relevance +
customer benefit +
novelty Ø
functionality / type of implementation +
[++ very good / + good / Ø balanced / – less / – – not available]

For an overview of all the finalists, visit www.ifoy.org

CLICK HERE to find out more about STILL.

IFOY FINALIST FOCUS: IKEA Project Flat Pack Picking by SSI Schäfer

Posted on 26 May, 202229 July, 2025 by David Priestman

Next up in our series examining each of the IFOY Award nominated finalists ahead of the winners announcement on 30th June at BMW World, we look at the first of two solutions in the Integrated Warehouse Solution category – IKEA Project Flat Pack Picking by SSI Schäfer.

IFOY category: Integrated Warehouse Solution

Flat pack picking lets SSI Schäfer offer a truly unique, automated and turnkey system solution from a single source, providing safe, efficient and volume-optimised palletising of heavy and bulky items typical for the furniture sector. The picking module with gantry robots facilitates the efficient handling of an especially heterogeneous range of items, reduces the burden of non-ergonomic tasks on employees and stands out with its high degree of scalability.

Customer: Inter IKEA Group

Realisation Phase:
From: 2019-08-08
To: 2021-04-19

Description

The multinational furniture company IKEA has successfully implemented a fully automated order picking system for handling bulky and heavy items at its customer order distribution centre in Dortmund, Germany, together with its long-term intralogistics partner SSI Schäfer , as part of its efforts to create a more ergonomic and healthier working environment for its employees. The heart of the system is the flat pack picking solution with an intelligent gantry robot picking system. The turnkey, scalable as well as high performance system is flexible in its handling, suitable for a variety of heavy, bulky items and automatically generates optimal pack patterns for the order pallets. Modern robotics applications reduce the workload of the workforce in handling goods of this kind.

Who hasn’t heard of them, those classic products MALM, IVAR or PAX? IKEA opened its first furniture store in Germany way back in 1974. Since then, the Swedish furniture chain has been delighting customers with a wide assortment of products in Scandinavian design. This ongoing successful trajectory has continued even during the pandemic: For the 2020 fiscal year, IKEA Germany reported sales revenue of €5.325 billion in store-based retail. Despite the COVID-19 pandemic, the home furnishings group generated growth of 0.9%. In the e-commerce segment, sales revenue increased by 74.3% to €861 million. The online share almost doubled as compared to the previous year and is now reported at 16.2%. The growing trend in favour of online furniture purchases is compensating for the downturn in furniture stores caused by the COVID-19 crisis.

Providing a consistent response to economic and social challenges
While IKEA is the undisputed number one in furniture retailing in Germany, the industry is still engaged in an intense price war. This makes it important to continuously adapt cost structures and processes, including logistics, to the dynamic market situation to ensure that IKEA can offer its customers an appealing, competitive range of goods. IKEA is handling this challenge with great success: “Steadily increasing efficiency while at the same time increasing throughput is a constant incentive for us,” says Julien Weiß, Intralogistics Development, Inter IKEA Group. “With this in mind, and primarily in order to reduce the manual workload of our employees, IKEA is increasingly investing in the automation of its intralogistics processes.” This is how the furniture group is responding to the persistent cost pressure while also focusing on the health of its staff. Conventional manual picking of heavy and bulky parts, such as chests of drawers or cabinets, can put a strain on the musculoskeletal system. Plus, hiring the right warehouse staff for positions that involve physical labour is tough.

Concept study as the initial spark for the pilot project
IKEA Intralogistics acts, for all intents and purposes, as an in-house consultant and also ensures continuous improvement of the processes at its customer order distribution centre in Dortmund. In 2017, management there began to consider the deployment of robots in the area of order picking in collaboration with SSI Schaefer, a project partner they had trusted for many years. This approach was part of a concept study, also developed jointly, to optimise logistics in the handling of customer order business. “Both the heterogeneous range of articles and the large proportion of heavy and bulky items were particularly challenging here,” says Tim Langenbach, Director Business Development Retail & Wholesale, SSI Schäfer . “As a full-range supplier in the field of intralogistics, we were able to work in close coordination to identify a suitable solution to this problem.” As part of a test installation and subsequent simulation, the flat pack picking system, which is being used for the first time in Dortmund, was determined to be the ideal solution after a “proof of concept.” The predefined customer requirements were met with an integrated logistics solution from a single source, an intelligent software concept and modern robotics applications: As a result, IKEA enjoys efficient and more ergonomic processes, handling flexibility as well as scalability.

Steady replenishment process and intelligent palletising
“Our original intention was to embrace this exciting concept and test the system together,” says Julien Weiß. “We provided the location and the items here in Dortmund, and SSI Schäfer installed the solution, facilitating a reliable ‘proof-of-functionality’.” The results were impressive across the board, and the partner contract to implement the real system was signed at the end of 2019. The system went live in April 2021, and the flexibly scalable flat pack picking module comprising hardware and software, which SSI SCHÄFER supplies as a complete system from a single source, was integrated into the customer order distribution centre’s existing hall, almost ten metres in height. Since it was started up, the incoming pallets are first checked for contours and weight. Then, energy-efficient SSI Exyz storage-retrieval machines perform the storage in the pallet warehouse with almost 900 storage locations. Along the hydraulic buffer aisle, four ro-ber FP150 series gantry robots, which access both statically provided A-items and dynamically provided B- and C-items within their action area, pick pallets. The gantry robots are equipped with multifunctional grippers that automatically adapt to the dimensions of the items and the type of packaging by means of servo-motor-adjustable suction cups. The gantry robots and grippers were developed by ro-ber Industrieroboter GmbH, a subsidiary of SSI Schaefer. The process is supported by vision technology in combination with the WAMAS logistics software, so that each picking robot is able to quickly identify the proper position of the requested item. Goods up to 2.5m in length and weighing more than 60kg are safely picked up from the source pallet and transferred to the ready-to-use order pallet. The removal of intermediate layers is also fully automated. The stored packing pattern generator (SSI Pack Pattern Generator) ensures a safe, optimised arrangement of the items on the order pallets, which are prepared for further processing via a buffer as part of the outbound process.

Findings of the simulation confirmed in operational use
IKEA distribution centres store an average of 10,000 different items. Tests have confirmed that 1,500 of these can be picked automatically. Ten percent of these items have been identified so the area can be optimally utilised. They are primarily fast movers, such as the PAX cabinet, the body of which weighs just under 60kg. “The reduced burden on our staff is a major plus,” emphasises Julien Weiß, who has headed the project since 2019. “They no longer have to pick bulky and heavy parts; instead, this is done by the robots. This takes an enormous amount of strain off the workforce, which is highly motivated to focus on boosting other value-added processes.”

Collaborative innovation for the furniture sector
IKEA and its employees immediately benefit from the increased performance values and automated processes. “We have enjoyed a consistently positive collaboration with SSI Schäfer , also in this pilot project,” Julien Weiß concludes. “The partnership approach favoured and lived out by both companies in particular has contributed to the success.” IKEA reserves the option of rolling out the innovative system at other locations. At the same time, the system will be of interest to other players in the furniture sector that would like to offer their customers an exceptional shopping experience across different channels, also in the heavy-load segment. This is because the solution delivers streamlined and efficient logistics processes with the help of automation, while at the same time offering employees an appealing working environment. “The innovative concept and the added value that can be achieved in real terms mean that the flat pack picking solution is extremely relevant to the market,” adds Tim Langenbach. “This is why we are excited to be able to implement this scalable system, which can be adapted to a wide range of different SKUs in the future and also provided on a turnkey basis to other customers.”

CLICK HERE to watch a video.

IFOY TEST REPORT

Ikea operates Germany’s largest customer order distribution centre in Dortmund. Together with its long-standing partner SSI Schäfer, Ikea has successfully relieved its employees of heavy physical work. Heavy and large items are palletised in a volume-optimised manner with the help of the new picking module from SSI Schäfer, employees are freed from unergonomic work. At the same time, optimal packing patterns for the order pallets are automatically generated.

How does Flat Pack Picking work in use at Ikea? The introduction of this sustainable, innovative picking concept from SSI Schäfer in Germany’s largest Ikea distribution centre was preceded by a concept study and proof-of-concept starting in 2017. By means of a test installation and subsequent simulation, Ikea put SSI Schäfer’s flat-pack picking system, implemented for the first time at the Dortmund site, through its paces – and found it to be good. The go-live started in April 2021. Both the heterogeneous range of articles and the large proportion of heavy and bulky articles were a particular challenge here. It turned out that of the approximately 12,000 stock keeping units (SKUs) located in the distribution centre (DC), about 10%, i.e. 1,200, can be handled fully automatically. These are usually the so-called “fast-moving items”.

The goal of the four gantry robots used, which are supported by two small gantry robots outside the actual picking area, was to relieve the employees of heavy tasks by means of automated gantry picking. One of the four gantry robots, with its 16 suction cups that grip the packaged goods from above and the cameras at the four corners, has a theoretical (technical) picking performance of 70 to 80 picks per hour. This makes the four robots the fastest link in the entire system. Together, the four gantry robots can handle a maximum of 312 picks; in real operation, they currently handle a good 200 picks per hour. Intermediate layers on the individual packages that get in the way of the fast lifting and transporting process of the packages are reliably detected and removed.

The turnkey, scalable order-picking solution basically consists of three areas: the left-hand part of the system for the dynamic provision of the slower-moving furniture packages, the actual picking area in the middle where the four “ro-ber” gantry robots do their work and to which no human has access, unfortunately not even for testing purposes, and the right-hand part of the system for the static provision of the fast-moving items. The gantry robots are equipped with multifunctional grippers that automatically adapt to the dimensions of the articles to be picked and the type of packaging by means of servomotor-adjustable suction cups. Packages of goods up to 2.5 metres in length and weighing over 60 kilograms are safely picked up from the source pallet and transferred to the order pallet. SSI Schäfer’s Pack Pattern Generator ensures that the requested items are optimally arranged on the order pallet and can be picked up for the customer order.

IFOY Test Verdict

According to Ikea’s own information, the new system enables the company to handle about 3,000 more customer orders per week than before. This is a great advantage because customer orders tend to be smaller, but the quantity is significantly higher. In times of e-commerce, more and more customers have their Ikea purchases delivered and also set up. However, SSI Schäfer’s sophisticated flat-pack picking solution can also be adapted to a wide range of different SKUs outside the furniture industry and is therefore highly interesting for other industries as well.

IFOY INNOVATION CHECK

Market relevance: The challenge of picking large and at the same time carton-packed packages has long been known in logistics. As a rule, teams of two order pickers or one order picker with a mechanical lifting aid, such as a balancer, must be used for this. The solution presented is very attractive for this market segment. However, an essential prerequisite for successful use is reliable and stable carton packaging to implement the gripping process with vacuum suction pads.

Customer benefit: If the aforementioned prerequisite is fulfilled, the solution offers both an ergonomic benefit through the relief of the employees and a benefit through the automatic provision of the article pallets for picking. The latter function reduces the load on the supply warehouse for order picking, as the article pallets are held in the staging area for flat pack picking according to their access frequency and are made available for access at the exact time. Together with the precisely specified stacking sequence and the automated movement of the customer order pallet through the picking system, this results in a stable and reliable build-up of the load.

Novelty: The well-known picking task of flat pack picking has never before been implemented so consistently and efficiently in an automated system. The clever design of the material flow of the article pallets combined with the flexible gripping technology for handling the carton-packed parcels account for the high degree of innovation, which has not been achieved before.

Functionality / type of implementation: The functions are very well and appropriately designed for the application at IKEA. According to the information provided by the developer SSI SCHÄFER and the user IKEA, the limitation of the achievable throughput does not result from the robots with their grippers but from the capacities for cross-distribution of the customer order pallets and the article pallets with distribution trolleys. For a general use case, there is therefore still potential to make the function more adaptable for different order compositions.

Verdict: Not all interested users will have the prerequisites of stable and flat carton packaging. However, if these are given, it is a relevant and innovative solution for efficient order picking.

market relevance Ø
customer benefit ++
novelty ++
functionality / type of implementation +
[++ very good / + good / Ø balanced / – less / – – not available]

For an overview of all the finalists, visit www.ifoy.org

CLICK HERE to find out more about Flat Pack Picking by SSI Schäfer.

IFOY FINALIST FOCUS: e.scala by Stow Robotics

Posted on 23 May, 202225 July, 2025 by David Priestman

The latest product in our series examining each of the IFOY Award nominated finalists ahead of the winners announcement on 30th June at BMW World is the e.scala goods-to-person system entered by Belgian intralogistics specialist stow robotics.

IFOY category: Robot

e.scala is a highly standardised, robot-based goods-to-person system that replaces all the classic components of an automated storage system with a robot and thus enables a realisation time of just three months in addition to a significantly lower investment and lower running costs.

Description

The e.scala is a robot-based storage and order-picking system, whereby the robot moves in three dimensions in a storage cube and can easily reach any point in a warehouse or in production via a rail system. A patented ramp system enables the robots to move from storage level to storage level and to overcome height differences outside the storage cube. Due to the high flexibility of the robots, multiple workstation variants can be mapped very easily. This makes it possible to map almost every procedural customer requirement with standard modules.

The area of application for e.scala is in small and medium-sized installations with a focus on applications in e-commerce, in production supply and on micro-fulfilment solutions. The high level of standardisation of the system makes it possible to automate even small requirements from 500 storage locations and thus enables full automation to be carried out significantly earlier compared to classic systems.

CLICK HERE to watch a video.

IFOY TEST REPORT

The manufacturer stow robotics is coming to the IFOY TEST DAYS in Dortmund with a demo system of a classic goods-to-person shuttle system, which was transported from the truck to the test hall in one go. The only moving part in the storage and picking system is the shuttle that moves on rails, which stow calls “robot”. Otherwise, the customer is supplied with pure redundancy. The strength of e.scala lies where it comes to entry into automation goes.

The USP of the installation is the fact that the complete system consists of only 15 different parts. However, only the “exciting” pre-storage zone is shown with three lines to get to four levels in the warehouse. How the system works is also stored in the product name: The “e” comes from escalator, i.e. an escalator. And the “scala” is intended to demonstrate the scalability. And something else very special is immediately noticeable: the entire installation does not require a vertical lift, i.e. no elevator: the individual aisles are accessed via sloping ramps, which significantly reduces the susceptibility to errors. The module on which the robot can change the direction of travel in order to move the goods to be transported into or out of the warehouse and, with or without goods to be transported, is called the “connector”.

In principle, the system is similar to a multi-storey car park, with the actual ordering system usually being outside the warehouse. The manufacturer attaches great importance to the redundancy of the system: The only thing that can break, according to its own statement, is the robot. But it doesn’t block the whole system. stow uses the 200-year-old concept of the railway. The transport robot has eight wheels: four for driving in the X direction, the other four move the robot in the Y direction after the wheel change. In principle, the entire structure only needs electricity twice: once for the charging station, where the individual robots can charge their power caps – with a charging time of eight seconds, they drive around for around twelve minutes – and once for the WiFi robot communication with the warehouse management system. That also means:

The individual modules of the e.scala system are 5m x 2.5m in size and are scalable. The system still tolerates a total height of 24m. The Stow Traffic Control (STC) knows when the robot drives over the built-in passive RFID tags in the respective section of the route. Some would call it a material flow system, while others would call it a warehouse control system.

e.scala is basically intended for use in small and medium-sized installations with a focus on applications in the e-commerce sector, in production supply and in micro-fulfilment solutions. Because the system is standardized to a high degree, even small requirements from 500 storage locations to be automated can be well served with it. Because the 15 basic components of the system and the robot can be delivered directly from stock, a complete system can be planned and implemented within a very short time. Even in the event of a robot breakdown, the availability of the system is extremely high, because the accessibility of every place in the system is secured at all times via multiple routes.

IFOY Test Verdict

The “charge on the fly” system of the robots, which can recharge their power caps at any time, guarantees customers 100 percent performance of this storage and picking system in 24/7 regular operation. Because for the automation of smaller systems, low initial investments and a later easy scalability are of great importance, e.scala is perfect for SMEs that don’t want to go “full” with their investment in automated intralogistics.

IFOY INNOVATION CHECK

Market relevance: With e.scala, Stow robotics is targeting small and medium-sized container-based warehouse automation solutions based on the goods-to-person principle, which are currently in particularly high demand in the growth sectors of e-commerce, micro-fulfilment and production supply. Economical use should already be possible from 500 storage locations or 250 square meters of floor space. e.scala has to compete with systems from Autostore and Exotec in this area. Market potential and relevance are expected to be high due to the special features of the system.

Customer benefit: The ramp system for changing the robots between the storage levels makes it possible to dispense with lifts, rigid conveyor technology and electrification of the storage area and thus achieve low system complexity with low investment, operating and maintenance costs. The standardization allows rapid implementation and commissioning within just three months. The storage cube can be scaled quite freely in terms of height, width and length and allows a certain degree of flexibility when choosing between storage density and capacity. The advantages over AutoStore are the higher payload, faster response time, higher throughput and better redundancy. In certain configurations, even higher storage densities should be achievable.

Novelty: The innovation consists above all in the low system complexity caused by the use of the ramps. The robots are the only actuated units in the storage structure, which makes the solution extremely scalable at a moderate cost. In addition, there is increased redundancy since each container in the system can be reached via multiple paths. Containers can be flexibly sequenced at three points in the system, but this is not an innovation compared to other systems. The charging management of the robots is excellently solved by supercaps, which are quickly charged during the picking process in 8 seconds for 12 minutes of operating time, which ensures that the robots are available 24 hours a day.

Functionality / type of implementation: The functioning of the test system was successfully demonstrated. The robot with two-way chassis changed storage levels safely with and without a load via the ramps. Apart from the integrated lifting function for picking up the boxes, the robots are kept simple and robust. Using the rail system, the robots can also carry out sequencing in the pre-zone and drive to other areas of the building for production supply.

Verdict: The specific customer benefit of e.scala is given above all for small and medium-sized systems, which are to be implemented quickly and cost-effectively due to the simplicity and standardization of the solution. The system is technically simple and solidly built and impresses with its flexibility in choosing between storage density and performance as well as with the comparably high level of redundancy even if individual robot units fail.

market relevance ++
customer benefit +
novelty +
functionality / type of implementation ++
[++ very good / + good / Ø balanced / – less / – – not available]

For an overview of all the finalists, visit www.ifoy.org

CLICK HERE to find out more about stow robotics’ e.scala solution.

IFOY 2022 WINNERS IN BRIEF:

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