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Wireless power transfer is emerging as a pivotal technology for autonomous mobile robots, addressing a long‑standing bottleneck: the need to pause operations for recharging. Traditional dock‑and‑charge stations consume valuable floor space and create idle time that erodes productivity. CaPow’s Genesis platform sidesteps these constraints by delivering electricity through a modular pad as robots move, effectively turning the warehouse floor into a continuous power grid. This approach not only sustains robot activity but also aligns with the broader industry push toward higher asset utilization and leaner operations.

The modular nature of Genesis allows antennas to be strategically placed along pick paths, transfer points, or any high‑traffic corridor, making the system agnostic to robot brand or model. By proving compatibility with both Ocado Chuck and MiR600 at MODEX, CaPow demonstrates a scalable, multi‑platform infrastructure that can be retrofitted into existing facilities without major redesign. Operators can therefore shrink fleet sizes, reclaim square footage previously devoted to charging docks, and lower reliance on large lithium‑ion batteries, translating into tangible cost savings and a more flexible layout for future automation upgrades.

As e‑commerce volumes surge and manufacturers adopt increasingly sophisticated fulfillment networks, energy delivery will become a decisive factor in automation ROI. Companies that adopt in‑motion power solutions like Genesis can expect faster throughput, reduced capital expenditure on charging infrastructure, and enhanced system resilience. The live demonstration at MODEX signals a shift toward treating power as a service within the warehouse, paving the way for broader adoption of wireless charging standards and potentially spurring new OEM collaborations aimed at fully autonomous, always‑on robotic ecosystems.