Polymath Robotics Autonomous Navigation Modules

Magically simplified autonomy for off-highway vehicles.

autonomous navigation vehicle-agnostic sensor-compatible off-highway vehicles industrial automation heavy machinery

Tool Information

Primary Task Industrial vehicles
Category specialized-technologies
Sub Categories robotics automotive-and-transportation workflow-automation
API Available Yes
Country United States

Polymath Robotics provides a solution for the efficient automation of off-highway industrial vehicles. These autonomous navigation modules are targeted towards a wide variety of heavy machinery including agricultural vehicles, mining equipment, ground support equipment, yard trucks, forestry equipment, and earth moving equipment. The system is designed to be vehicle-agnostic and sensor-compatible, meaning that it can be integrated into any industrial vehicles existing hardware and adapted to suit a variety of specific operational needs. This makes Polymath's system broadly applicable across many industries. Commandable via API, Polymath allows easy integration with your preferred coding language, simplifying the development process for induced autonomy. Their solution claims to have a mature vehicle dynamics model and low network bandwidth overhead, which adds to its operational efficiency. Polymath's solution incorporates built-in safety features, promising safer autonomous operations for industrial vehicles. The autonomous navigation modules are also designed to be compute-agnostic and can integrate with software via its API. In addition to these features, Polymath Robotics provides a service to help automate existing vehicle fleets.

Polymath Robotics is a San Francisco-based company founded in 2021 that specializes in autonomous navigation solutions for industrial vehicles. They provide vehicle-agnostic autonomy software designed for controlled, off-road environments such as agriculture, mining, and defense. Their mission is to simplify industrial autonomy, enabling clients to focus on higher-level task automation.

The company offers several key products, including the Autonomy Engine, a SaaS-based system that provides foundational autonomy features like navigation and safety layers. They also have Caladan, a simulation environment that allows developers to test autonomy in virtual settings. Polymath's solutions are compatible with various industrial vehicles and emphasize safety with built-in collision avoidance and auto-stop mechanisms. Their subscription-based model includes a "done-for-you" service for clients seeking full vehicle automation.

Polymath Robotics has raised $500K in seed funding and is recognized for its rapid deployment capabilities and minimal field service requirements, making it a cost-effective choice for industries needing off-road autonomy.

Pros
  • Simplifies industrial vehicle autonomy
  • Vehicle-agnostic platform
  • Sensor-compatible system
  • Off-road environment suitability
  • API control integration
  • Execution in preferred coding language
  • Quick automation implementation
  • Offers done-for-you options
  • Straightforward monthly pricing
  • Wide applicability across sectors
  • Compute-agnostic modules
  • Incorporates safety features
  • Assistance in automating fleets
  • Applications in heavy machinery
  • Efficiently handles basic autonomy
  • Integrates with existing hardware
  • Low network bandwidth overhead
  • Mature vehicle dynamics model
  • Ease of installation
  • Designed for large vehicles
  • Adaptability to operational needs
Cons
  • Limited to off-road vehicles
  • Lacks indoor operation capability
  • Doesn't support small vehicles
  • Unsuitable for high-speed vehicles
  • Could have complex API
  • Unspecified safety features
  • Service-dependent for fleet automation
  • No specified customer support
  • Lacks real-time tracking feature
  • Needs low network bandwidth

Frequently Asked Questions

1. What is Polymath Robotics?

Polymath Robotics is an AI tool designed to simplify the process of adding autonomy to industrial vehicles. It is vehicle-agnostic and sensor-compatible, allowing for the induction of autonomous operations into a variety of different heavy machinery like agricultural vehicles, mining equipment, ground support equipment, yard trucks, forestry machinery, and earth-moving equipment.

2. How does Polymath Robotics simplify the process of adding autonomy to industrial vehicles?

Polymath Robotics simplifies this process by being both vehicle-agnostic and sensor-compatible. This versatility means it can integrate with any existing hardware in an industrial vehicle and can be adapted to suit specific operational needs. It also allows developers to control their vehicles using an API, meaning it can be configured easily in the developers' preferred coding language.

3. Can Polymath Robotics be used for all types of industrial vehicles?

Yes, Polymath Robotics can be used for all types of industrial vehicles. Its vehicle-agnostic nature and sensor compatibility allow it to be integrated into any industrial vehicle's existing hardware, making it suitable for a wide range of heavy machinery.

4. Is Polymath Robotics platform compatible with most sensors?

Yes, Polymath Robotics platform is compatible with most sensors. This compatibility feature allows the platform to integrate seamlessly with most industrial vehicles, making it a flexible and adaptable tool for automating machinery.

5. How do I control my vehicles via the Polymath Robotics API?

Vehicles can be controlled via the Polymath Robotics API using your preferred coding language. This allows for an easy integration and a simplified development process, making the task of inducing autonomous functions into industrial vehicles more straightforward.

6. What type of environments is Polymath Robotics designed for?

Polymath Robotics is designed for large industrial vehicles operating in off-road environments. These can include but are not limited to agricultural fields, construction sites, mining areas, and other similar off-highway locations.

7. What is the cost of Polymath Robotics?

The cost of Polymath Robotics is not explicitly stated on their website, but they do feature simple monthly pricing.

8. How quickly can I add autonomy to my equipment using Polymath Robotics?

With Polymath Robotics, you can add autonomy to your equipment in weeks. The exact time frame may vary depending on your specific operations and the hardware implementation requirements.

9. Can the Polymath Robotics platform speed up my vehicle's command execution in simulation?

Yes, Polymath Robotics can speed up your vehicle's command execution in simulation. In fact, the platform asserts that users can execute their first vehicle commands in simulation using their preferred coding language in just 40 minutes.

10. What are the done-for-you options offered by Polymath Robotics?

Polymath Robotics offers done-for-you options for operators, providing them with a service to automate their existing vehicle fleets. This service is particularly useful for industrial operators that need assistance in converting their current vehicles into autonomous ones.

11. Who makes up the Polymath Robotics team?

The Polymath Robotics team consists of engineers from established organizations like Clearpath Robotics, NASA, Google X, Amazon Lab 126, and Hyperloop.

12. What makes Polymath Robotics' system broadly applicable across industries?

The broad applicability of Polymath Robotics' system across industries is due to its vehicle-agnostic and sensor-compatible features. This allows it to be integrated into any industrial vehicle's existing hardware and adaptable for a variety of specific operational needs.

13. How does the Polymath Robotics platform ensure safety during autonomous operations?

Polymath Robotics platform has built-in safety features that ensure safe autonomous operations for industrial vehicles. While the exact details of these safety features aren't specified on their website, the inclusion of them demonstrates a commitment to maximising safety while automating.

14. Can Polymath integrate with software via its API?

Yes, Polymath Robotics can integrate with software via its API. This ability allows for a seamless transition from the existing software of the vehicle to the autonomous system provided by Polymath Robotics.

15. What kind of support does Polymath Robotics offer for fleet automation?

Polymath Robotics offers a dedicated service to help automate existing vehicle fleets. This can be a beneficial feature for organizations that have large fleets of vehicles and are looking to transition into automated operations.

16. What coding languages does Polymath Robotics support?

Polymath Robotics supports the coding language that the user prefers. This flexibility in language compatibility ensures a smoother and more comfortable development process during the automation of vehicles.

17. What types of equipment can I automate with Polymath Robotics?

With Polymath Robotics, you can automate a wide variety of heavy machinery. This can include agricultural vehicles, mining equipment, ground support equipment, yard trucks, forestry equipment, and earth moving equipment.

18. What is the vehicle dynamics model used by Polymath Robotics?

Polymath Robotics uses a mature vehicle dynamics model, which is an integral part of their solution. However, the specific details of their vehicle dynamics model are not given on their website.

19. What is the network bandwidth overhead for Polymath Robotics?

Polymath Robotics claims to have a low network bandwidth overhead. While it doesn't provide specific numbers, this suggests that it operates efficiently and can perform well even in settings with limited network resources.

20. Does Polymath Robotics service include compute-agnostic modules?

Yes, Polymath Robotics has compute-agnostic autonomous navigation modules. This means the system can integrate with a range of computing systems, making it flexible and adaptable to the needs of any industrial vehicle.

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