Mobile robotics: forklifts will never be the same again?
Robotic technology will transform the forklift industry, causing a colossal transfer of value from human-provided driving services, towards spending on autonomous industrial material handling machines, thus fuelling an industry revenue boom far exceeding recent growth trends, says IdTechEx.
Dr Khasha Ghaffarzadeh, Research Director at IDTechEx writes:
Robotic technology will also transfigure this industry, slowly but surely, enabling the rise of new types of autonomous mobile material handling units that will permeate into all aspects of our daily lives over the coming two decades.
The new IDTechEx Research report Mobile Robots and Drones in Material Handling and Logistics 2017-2037 provides a comprehensive and in-depth analysis of this transformation. Indeed, it provides technology and market assessments for all aspects of mobile robotics material handling and logistics. It shows, quantitatively, how some technologies will rise to transform industries whilst others will face becoming obsolete. Uniquely, this report takes a 20-year view of the future. This is essential because of the time scales on which these changes are likely to operate.
More specifically, this report provides the full picture, including technology assessment, detailed twenty-year market forecasts clearly explaining/justifying the different phases of market evolution, and company overviews/profiles/interviews. It covers AGVs/AGCs, autonomous mobile material handling carts/units and vehicles, mobile picking robots, autonomous light vans and trucks, last mile delivery drones, ground-based last mile delivery droids and so on.
Autonomous cars are the subject of a lot of hype and the media attention. Yet, despite being the largest prize, they will be amongst the last vehicle types to go fully autonomous. This is because their environment is poorly structured, and they are thus hard to autonomize. The current models of ownership and usage also provide a weak motivation for the general public to pay for autonomous driving, constricting adoption to high-end cars until long-term technology learning curves bring prices sufficiently down.
A drastically different picture is found when one looks beyond passenger cars: all manners of commercial vehicles operate in a variety of semi-structured and controlled indoor and outdoor environments. In such cases, the technology barrier to autonomy is lower whilst a pricing system already exists that values the provision of driving services. Warehouses and factories are examples of such environments, and are thus an appealing target for autonomous mobility technology.
Incumbent automated technology to go obsolete
Indeed, automated guided vehicles (AGVs) have been around since 1950s, essentially acting as long-range distributed conveyer systems. This technology itself has matured: sales have diversified beyond just automotive factories and assembly lines, the onus has shifted onto suppliers to spend effort in developing customer specifications, and price pressures are increasingly intense.
The latter is critical in this highly fragmented business landscape where suppliers offer comparable levels of competency. We find that it is likely that companies with partnerships with major forklift players will command a competitive advantage via the removal of margin stacking. This partially explains the recent activities by forklift players to acquire, or partner with, AGV companies.
AGVs, and in recent years AGCs (carts), are enjoying healthy, albeit slow, growth. Yet, the industry is on shaky ground. Indeed, we assess that AGVs will face a slow journey towards technology obsolescence in the next 15 years. The current positive growth rates, we find, give a false sense of long-term security, and companies will increasingly face an adapt-or-die situation.
Indeed, the IDTechEx Research report Mobile Robots and Drones in Material Handling and Logistics 2017-2037 will provide an assessment of why this technology will lose in the long-term. We will also provide a quantitative picture of its modest growth in the near future and its slow decay in the long-term
Rise of independent mobility
The challenge to the incumbent AGV technology comes from the next generation of navigational autonomy technology. Current AGV systems are rigid and require infrastructure modifications, i.e., the placement of references points or lines to guide the vehicles. These systems safely work across all payload ranges. They are however difficult to tweak, require advanced full system planning, and involve a large onsite installation time which represents a major manpower overhead.
Fully autonomous systems will do away with such shortcomings. They offer flexibility in that routes can be changed via a software interface and updated via the cloud, and benefit from short installation time involving the CAD model of the facility and/or the walking around of one robot for ‘training’ it.
Current models all have limited payloads, partially because safety is not yet fully trusted. The robots and software are also still somewhat expensive, limiting applicability to less cost-sensitive sectors. Human workers may also put a resistance to wide-scale adoption, seeing them as more of a threat.
None is however a showstopper. This transition towards infrastructure-free and independent autonomous navigation technology will take place. The payloads will increasingly rise to cover the full spectrum and hardware costs will fall thanks to major investment in other autonomous driving industries. In fact, we assess that very soon costs across the board will fall below the level of AGVs since they save on installation and infrastructure modification costs.
This story can be contextualized as part of a slow change in the navigation technology for AGVs moving from low-cost wire or magnetic tape guidance to laser localization and now to natural feature recognition and SLAM. This technology evolution however increasingly necessitates a transformation in the nature of the companies towards software and algorithm plays. Indeed, it is the importance of software (autonomy algorithms, fleet/inventory management systems, user interfaces) that explains why California has emerged as a hotspot for investment and start-ups in this arena.
Luckily, many of the major changes will arrive in small evolutionary steps, giving the wise incumbents the chance to go with the flow and exploit their customer relationship and application know-how to stay in the warehouse/factory mobility automation game. They will however have to fundamentally alter their engineering skillset.
Technology transition from human-operated towards automated guided vehicles/carts and now autonomous mobile robots. The AGV/C shown here, in order, are from: Amazon (Kiva), Geek+, AGVE, DS Automation, Daifuku, SSI Schafer, Scallog, and others. The mobile robots shown here, in order, are from: SeeGrid, Hitachi, Mobile Industrial Robots, Omran Adept Mobile Robotics, Knapp, Swisslog (Kuka), Ottomotors (Clearpath), Locus Robotics, Baylo, Vecna, RoboCV, and Exotec Solutions.
Colossal value transfer towards vehicle suppliers?
Independent autonomous navigation enables the mobile material handling vehicle industry (e.g., forklifts, tugs, etc) to generate far more revenue than would have been the case without autonomous mobility. Indeed, vehicle suppliers will increasingly capture the value that currently goes to the wage bill spent on human-provided driving services.
As quantitatively demonstrated in our twenty-year forecasts, this will represent a major sum despite the fact that our projected figures for future autonomous mobility hardware costs suggest a long-term devaluation of driving services in high-wage regions.
Our technology roadmaps also suggest that autonomous forklifts will soon become a major feature of the industry, despite them not even being mentioned in major forklift companies’ investor presentations today. Indeed, our forecast model suggests that nearly 70% of all forklift sold in 2038 will be autonomous.
This transformation will of course not take place overnight. Indeed, the timescales of adoption will be long, explaining why in our study we have chosen to build 20-year models where different phases of growth are clearly marked and underlying assumptions/conditions explained.
In our forecast model for autonomous mobile industrial material handling vehicles, we project that annual sales of autonomous versions will steady rise but remain a tiny share of the global addressable market until around 2023. We will then enter the rapid growth phase soon after, causing a transformation of the industry and dramatically raising adoption levels.
Note that the forklift industry is open to innovation. It embraced electric powertrains in the past, particularly for indoor environments and in Europe. It will also adopt autonomous navigation. In fact, merger and acquisition between forklift and automation (also AGV) companies is already a noteworthy trend.
These figures paint a picture of the forklift industry today. Our report provides twenty-year market forecasts, showing how industry revenues will change over the coming decades with the rise of autonomous mobility. Here, the figure on the left shows the revenues of top 20 companies for 2014 and 2015 whilst the ones on the right show how industry revenue is distributed amongst the players.
Some interesting news from the past few years: in 2014 Toyota acquired Tailift; KION acquired automation specialists Egemin and Dematic; Mitsubishi Nichiyu took over UniCarriers in 2016. In case you are unfamiliar with the industry, note that Toyota owns Raymond, Toyota, BT, and CESAB brands, whilst KION Group operates Linde, STILL, Baoli, Fenwick, DM, and Voltas brands
Market forecasts for autonomous mobile vehicles in material handling and logistics showing the different phases of growth. Our report provided detailed quantitative twenty-year forecasts, both in revenue and unit numbers, for AGVs, AGCs, AMVs and AMCs (autonomous mobile vehicles and carts in material handling and logistics), autonomous trucks, autonomous light vans, mobile picking robots, last mile delivery ground robots (driods) or drones. The inset shows the projected decline of automated vehicle systems: the path towards technology obsolescence.
Beyond the confines of factories and warehouses
Interestingly, new types of mobile robots are emerging. Here, the rise of navigational autonomy will enable mobile material handling units (robots) to enter new walks of life. This is because mobile robots will become increasingly able and authorized to share spaces with humans, intelligently navigating their way and avoiding objects. They will therefore enter new spaces to ferry items around, diffusing from highly controlled and structured environments towards increasingly less structured ones.
These technologies will share a common technology platform with other autonomous material handling units, although each application will need to be adapted to each environment, and this ability to customize (or initiate) will remain a source of value for start-ups and SME for years to come.
Here, currently, the hardware is often an integral part of the software which is customized to each environment. This prevents commoditization in the short- to medium-term, but will not manage to prevent in the long term. Consequently, such mobile robotic companies will inevitably have to seek new sources of revenue. Therefore, a long-term re-thinking of business models will be required with emphasis shifting from the robot onto data-based or delivery services. Our contacts tell us that this re-thinking too has already begun.
The schematic shows a structure gradient. There are numerous more structured indoor (shown here) and outdoor environments (e.g., agriculture) that will be easier targets for autonomous mobility technology than homes or general driving. Mobile robots will penetrate these first. For details see Mobile Robots and Drones in Material Handling and Logistics 2017-2037.
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