"As a lead researcher in humanoid robotics and autonomous systems, I've tested numerous platforms over the years. Robify Autonomous Driving Research Vehicle, and Robotic Arm are, without a doubt, the most integrated, capable, and user-friendly research platforms I have ever worked with. This suite is a game-changer for academia, industrial R&D, and even startup innovation. Here’s a detailed breakdown: The modular design is a dream. Swapping out arms, adding specialized end-effectors, or upgrading the compute unit is tool-less and takes minutes. ROS 2 integration is seamless. All sensors and actuators are fully accessible via ROS topics and services. Multiple safety layers – collision detection, force limitation on every joint, and E-stop buttons located everywhere. Our students, even beginners, could work with it safely from day one. ISO 13849 PLd certified."

Dr. Elena Rodriguez Senior Robotics Researcher at the Institute of Advanced Automation

“We’ve been using this autonomous driving research platform vehicle in our lab for the past semester, and it has significantly accelerated our experiments in perception and planning. From a hardware standpoint, the sensor configuration is thoughtfully designed: LiDAR, cameras, GPS/INS, and compute are integrated in a way that feels purpose‑built for research rather than retrofitted. Time synchronization and data logging worked correctly from day one, which is rare in our experience with research vehicles. On the software side, the platform’s openness is its greatest strength. The provided baseline stack (localization, mapping, perception, planning, control) is well documented and modular. My students were able to replace individual components with their own algorithms without having to tear apart the entire system. The included simulation support was also a big plus – we can iterate in virtual environments before deploying to the real vehicle, saving both time and repair budgets. Overall, this vehicle has allowed us to move from ‘fighting the platform’ to actually doing autonomous driving research. For labs and R&D groups that care about reproducible experiments and fast iteration, it’s an excellent choice.”

Mateo Johnson Dr.

"As an automation engineer responsible for deploying collaborative cells on our production floor, I’ve been very impressed with this robotic arm. Installation was straightforward: the mounting, wiring, and controller integration took less time than with other arms we’ve used. The programming interface strikes a good balance between ease of use and depth. Our technicians can teach simple pick‑and‑place routines with the graphical interface and hand‑guiding, while our engineers tap into the API for more advanced motion planning and vision‑guided tasks. Performance in day‑to‑day operation has been solid. The arm’s repeatability is excellent, and the built‑in safety features and force sensing have made it easier to integrate into cells where humans and robots work in close proximity. We’ve run it on two shifts for months with minimal unscheduled downtime, and the support team has been responsive when we’ve had configuration questions. This robotic arm has quickly become our default choice for new automation projects – reliable, flexible, and accessible for both experienced programmers and shop‑floor staff."

James Nguyen Automation Engineer Responsible for Deploying Collaborative Cells