Artificial Intelligence enables new, revolutionary solutions.

Easily calculate on your own how your company can completely automate logistics using AI systems in 3 steps. For example, in this sample calculation we concentrate mainly on pallet handling. However, you can explore systems for picking, production supply, or other applications as well. Tours and tasks can be planned flexibly. Integrated fleet management and various optimization algorithms support several hundred applications of Lean AI transport robots.

Calculate possible savings in 3 expansion phases with the following spreadsheet.
Note: This calculation is intended to provide initial reference points only. No guarantee is given! The actual conditions must be thoroughly checked and calculated for every specific project.

Warehouse / Distribution Center Calculator

Please enter the current status here

m2
Range between 1,000 to 100,000
Range between 1 to 999
Range between 100 to 100,000
Range between 0.5 to 4
Range between 10,000 to 60,000
%
Range between 0.1 to 20
years
Range between 2 to 20
%
Range between 1 to 99
Range between 1 to 3

@
Based on your information, your operating costs per year are approx.

Initial savings are possible through the optimization of the forklift fleet, automatic booking of storage/removal operations (using scanner-free logistics!), and navigation of forklifts; for example, the forklift driver is given the exact route and no longer has to think about the shortest route.

Savings through fleet analysis, tracking, automatic booking
12% typically
Savings with forklift navigation
8% typically
Today's transporters can be successively replaced by fully autonomous Lean AI transport robots
Cost of Lean AI transport robot with up to 0.9m lifting height (hardware) – approx.
Cost of Lean AI transport robot with up to 9m lifting height (hardware) – approx.
(Depending on the equipment variant, the costs of the vehicles can be higher or lower)

1. Expansion phase: fleet management, automatic booking, forklift navigation

Number of all electrically operated pallet transporters
Savings on this number of transporters
This investment reduces the operating costs per year up to
Investment Required
Number of recognition units needed
Costs of recognition units
Cables, switches, installation, etc.
Costs of license software, engineering, training
Total project costs
Capital cost / year
Software maintenance / year
Payback period for the total investment

2. Expansion phase: automation of all floor-to-floor transports (up to 0.9m high)

Remaining number of counterbalance forklifts with navigation system for storage / retrieval on racks > 0.9m
Number of Lean AI transport robots up to 0.9m lifting height needed
This investment additionally reduces the operating costs per year up to
Investment Required
Cost of a Lean AI transport robot up to 0.9 m lifting height (hardware)
Software & project costs
Total project costs
Capital costs / year
Depreciation of a Lean AI transport robot / year
Service / maintenance of a Lean AI transport robot per year
Software maintenance / year
Payback period for the total investment

3. Expansion phase: automation of all floor-to-rack transports

Number of Lean AI transport robots up to 9m lifting height needed
This investment additionally reduces the operating costs per year up to
Investment Required
Cost of a Lean AI transport robot up to 9m lifting height (hardware)
Software & project costs
Total project cost
Capital cost / year
Depreciation of a Lean AI transport robot / year
Service / maintenance of a Lean AI transport robot per year
Software maintenance / year
Payback period for the total investment