Autonomous sprayer platform deployed across large-scale row crop operations. Required full Mach stack integration from sensing through fleet operations, with multi-machine coordination across areas exceeding cellular coverage.
From the machine's sensors to the operator's screen—each layer purpose-built, every interface defined. Click any layer to explore the full product.
Camera-based perception with edge inference for real-time obstacle detection and classification. Designed for harsh off-highway environments where reliability is non-negotiable.
All-weather radar obstacle detection that sees through dust, rain, and low light conditions where cameras fail. The sensing layer that makes autonomy reliable at the edge of operational limits.
LTE, Wi-Fi, and sub-GHz M2M mesh in a single MIL-STD-810 gateway. The connectivity infrastructure that keeps your autonomous fleet visible, updated, and coordinated across any operating environment.
The onboard mission computer that processes sensor data and executes autonomous machine behavior in real time—without cloud dependency. Built for factory integration on any off-highway platform.
Cloud-based platform for mission planning, fleet monitoring, path management, and operational analytics. The intelligence layer that turns individual autonomous machines into a coordinated operational program—visible, controllable, and scalable.
Mobile command and control for machine operators. Real-time status, manual override, and field intervention from a purpose-built interface designed for use in demanding operating environments.
Information flows through the platform in a single continuous loop—from the sensors on the machine to the operator's screen and back. Each layer adds intelligence, connectivity, and control.
Cameras and radar detect the machine's environment. Edge AI classifies obstacles in real time without cloud dependency
Machine telemetry, status, and sensor data move through the connectivity gateway across LTE, Wi-Fi, and sub-GHz mesh simultaneously.
The onboard autonomy computer executes path logic and vehicle control in real time—without cloud dependency. Autonomy works even when connectivity drops.
Mission parameters, path plans, and operational instructions are built and deployed from the cloud. Fleet-wide configuration updates in real time.
Live fleet monitoring, performance data, and operational analytics give program managers complete visibility across every machine in the field.
Operators command, monitor, and intervene from a mobile interface. Every machine in the fleet stays under human control when it matters.
The Mach platform isn’t a collection of separate tools. It’s a single information architecture designed so every layer feeds the next—sensor data informs connectivity, connectivity enables operations, operations inform the operator.
OEMs can enter the platform at any layer and expand over time. Each component delivers standalone value, and each additional layer multiplies the capability of everything already deployed.
260+ autonomous vehicles across 10+ countries and 500,000+ driverless miles. The Mach platform has been validated at real scale in real operating environments.
Every component is engineered to install at the factory, not the field. Standard CAN, Ethernet, and mechanical interfaces that fit your existing production line.
Adopt one layer or all five. Each system delivers immediate value and compounds with every additional layer deployed. Start where your program needs it most.
MIL-STD-810 ratings, IP67 sealing, and extended temperature ranges across every hardware component. Designed for the machine, not the test bench.
One engineering relationship for every layer of the autonomy stack. Fewer integration risks, fewer points of failure, and a single technical team accountable for the whole program.
The same architecture deployed across 30+ different vehicle platforms. OEMs with multiple machine types don't need multiple autonomy programs—Mach scales with your portfolio.
The Mach platform is deployed across more industries than any other off-highway autonomy stack—because its architecture is designed for integration flexibility, not a single use case.
Autonomous sprayers, row crop platforms, and precision ag fleets operating across large areas with variable connectivity.
Equipment on active sites with partial cellular coverage, demanding real-time awareness and fleet coordination.
Utility corridor and right-of-way maintenance in GPS-degraded and remote operating environments.
Haul and extraction operations in remote sites with limited infrastructure and demanding 24-hour operational requirements.
Logistics, resupply, and support operations in austere and contested environments requiring mission-critical reliability.
Port equipment and waterway-adjacent operations requiring connectivity and sensing in high-humidity environments.
Large-scale autonomous fleet programs across industrial sites requiring centralized visibility and OTA management.
Every Mach product delivers immediate standalone value. Every additional layer compounds your autonomy program. Start with what you need today.
Camera and radar sensing working together for robust obstacle detection that performs in the conditions where vision alone fails—dust, rain, and low light.
Factory-integrated LTE, Wi-Fi, and sub-GHz mesh connectivity for fleet visibility, OTA updates, and machine-to-machine coordination across your existing fleet.
The vehicle-mounted autonomy computer that executes autonomous behavior in real time. Works standalone or as part of the complete Mach stack.
Mission planning, path management, fleet monitoring, and operational analytics in a cloud platform built for the operational demands of real autonomous machine programs.
Mobile command and control that keeps operators connected to every machine in the field—status, commands, and intervention capability in a purpose-built interface.
All five systems working together as a single integrated platform. From the sensors on the machine to the operator's screen—one engineering relationship, one integration, one autonomy program.
Tell us about your platform, your operating environment, and your autonomy program. A Mach engineer will scope the integration and send you the full platform brief.
Talk to a Mach engineer about the complete autonomy stack, modular adoption paths, and factory integration for your platform.
Evaluating autonomy infrastructure for an OEM program? Let's scope which Mach layers fit your current development stage.
See the full specs for Perception, RadX, Nexus, Ops, and Pilot—each product page has the complete technical brief.
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