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Remote Robotics Research Jobs in Texas (NOW HIRING)

AR Specialist 3 Remote

Dallas, TX ยท Remote

$20 - $26.50/hr

... Intensive Care, neurosurgery, robotic surgical programs, oncology, gastroenterology, and ... research, and a strong commitment to the community. Our reputation as an award-winning employer ...

AR Specialist 3 Remote

Dallas, TX ยท On-site +1

$20 - $26.50/hr

... Intensive Care, neurosurgery, robotic surgical programs, oncology, gastroenterology, and ... research, and a strong commitment to the community. Our reputation as an award-winning employer ...

... feeling robotic or "uncanny". You will work closely with our engineering and product leaders to ... Facilitate user research and testing using AI and Agentic Models to analyze and report findings.

... feeling robotic or "uncanny". You will work closely with our engineering and product leaders to ... Facilitate user research and testing using AI and Agentic Models to analyze and report findings.

... and research laboratories, and physician offices around the world. Every hour around the world ... This position is part of the Service Organization located in Austin, TX and will be fully remote.

... robotics, and more. Our technical expertise is paired with an exceptional team of business ... Research, Analysis & Data Management: * Conduct research and analysis on Army programs, community ...

... Remote Monitoring, Nuclear Steam Generators, Automated Vision Systems, and Robotics. Our values ... Lead cross-functional collaboration with R&D, sales, marketing, operations, and support to deliver ...

... Remote Monitoring, Nuclear Steam Generators, Automated Vision Systems, and Robotics. Our values ... Lead cross-functional collaboration with R&D, sales, marketing, operations, and support to deliver ...

Database Developer

Irving, TX ยท Remote

$53K - $122K/yr

... robots, our digital and software technology experts think outside the box as theyprovide unique R&D ... Location This is a remote position. About the job you're considering Capgemini is looking for a ...

... Remote Monitoring, Nuclear Steam Generators, Automated Vision Systems, and Robotics. Our values ... Lead cross-functional collaboration with R&D, sales, marketing, operations, and support to deliver ...

... robotic, AI or advanced materials and our strong R&D mindset allows us to develop highly innovative ... While we offer flexibility in working hours and the option for occasional remote work, this role is ...

New

Remote Robotics Research information

What are the key skills and qualifications needed to thrive as a Remote Robotics Researcher, and why are they important?

To thrive as a Remote Robotics Researcher, you need a strong background in robotics, computer science, and engineering, often supported by an advanced degree (Master's or PhD) in a related field. Familiarity with programming languages (such as Python or C++), robotics operating systems (like ROS), and simulation tools (e.g., Gazebo, MATLAB) is typically required. Exceptional problem-solving, independent research skills, and effective virtual communication help you excel in remote, collaborative environments. These competencies are crucial for advancing robotics innovation while efficiently contributing to distributed research teams.

What are some common challenges faced by professionals in remote robotics research, and how are they typically addressed?

One common challenge in remote robotics research is effective collaboration across distributed teams, especially when working in different time zones. Researchers often rely heavily on digital communication tools and version control systems to coordinate experiments, share results, and troubleshoot issues in real-time. Another challenge is accessing and managing physical robotics hardware remotely, which is often addressed by using simulation environments and remote access protocols. Successful professionals in this field develop strong communication skills, adaptability, and familiarity with remote testing platforms to overcome these hurdles.

What is remote robotics research?

Remote robotics research involves studying and developing robotic systems and technologies from a location that is not physically on-site, often using digital communication tools and remote access to hardware or simulations. Researchers in this field might design algorithms, run simulations, or control robots over the internet to test new ideas. This approach enables collaboration across different regions and can reduce costs associated with travel and physical infrastructure. It also allows researchers to work with advanced robotics platforms that may be located in specialized labs or facilities around the world.
What are the most commonly searched types of Robotics Research jobs in Texas? The most popular types of Robotics Research jobs in Texas are:
What job categories do people searching Remote Robotics Research jobs in Texas look for? The top searched job categories for Remote Robotics Research jobs in Texas are:
What cities in Texas are hiring for Remote Robotics Research jobs? Cities in Texas with the most Remote Robotics Research job openings:

Robotics MPU & DNPU Field Applications Engineer

NXP Semiconductors

Austin, TX โ€ข On-site, Remote

Full-time

Medical, Dental, Vision, Retirement, PTO

Re-posted 5 days ago


Job description

Location: Candidates located in or near San Jose, Austin, Detroit, or the Boston metro area are encouraged to apply. We also welcome home based candidates from major East Coast metropolitan areas with convenient access to international airports.

AI is rapidly moving beyond research labs and into the real world-powering advancements in vehicles, factories, hospitals, homes, and everyday devices. NXP's Global Sales organization is the force that transforms our intelligent edge vision into meaningful market impact. We operate on the front lines of innovation, delivering realworld AI, secure edge intelligence, and breakthrough technologies to the customers shaping tomorrow's world.As a strategic partner at the intersection of customer ambition and NXP capability, our global sales team drives alignment, opens new markets, and builds the relationships that lead to design wins and revenue growth. Through deep market insight and longterm collaboration, we embed customercentricity into every decision and help accelerate innovation at the systemsolution level. This disciplined, clientfirst mindset enables us to architect integrated, futureready solutions that deliver sustained value and strengthen NXP's competitive advantage.We thrive in a highperformance, highownership environment-competing boldly, executing with urgency, and celebrating results. If you want to win big, grow fast, and work with the customers building what's next, NXP Global Sales is where ambition becomes achievement.

What to Expect

We are seeking a highly motivated, experienced engineer to join our FAE team supporting the rapidly growing robotics market - humanoids, drones, and Autonomous Mobile Robots (AMRs) platforms. You will help our customers architect and deploy NXP application and AI processors as core to next-generation robotic systems - powering companion computers, central compute, vision and perception pipelines, AI inference, sensor fusion, and motion planning. You will join a collaborative, passionate team that values creativity, open communication, and having fun while solving tough problems together developing leading-edge hardware & software solutions.

We support flexible work arrangements and a healthy work-life balance, and welcome teams to a modern, collaborative workspace in San Jose, conveniently located in the heart of North San Jose's thriving tech community. Ready to make your mark on the future of robotics? Apply now and let's build something amazing together!

Your Role
  • Provide technical leadership to sales teams and customers covering edge-compute architecture, processor selection, bring-up, and software stack integration for NXP MPU and DNPU processors targeting robotics platforms.

  • Own the end-to-end robotics compute architecture for customer engagements, spanning perception, localization, planning, and control integration.

  • Guide customers in deploying complete robotics software stacks on NXP platforms, enabling rapid system bring-up and deployment.

  • Partner with customers on the design of companion computers, central compute, vision/perception subsystems, and HMI nodes - from silicon selection through Linux board bring-up, kernel/driver enablement, and system performance tuning.

  • Architect heterogeneous compute solutions that combine Linux on application cores with real-time tasks on companion microcontroller cores, including inter-core communication, resource isolation, and end-to-end latency budgets.

  • Design support and lab troubleshooting through schematic and PCB reviews, bench bring-up, debugging, and root-cause analysis across hardware, kernel, drivers, and middleware.

  • Enable customer AI, vision, and sensor-fusion workloads on NXP processors and integrated NPUs, helping customers move models from training frameworks to optimized on-device inference for perception, navigation, and HMI use cases.

  • Deliver on-site and remote proof-of-concept builds using NXP evaluation kits, robotics reference designs, and BSP / SDK enablement, demonstrating end-to-end solutions for AMR, drone, and humanoid use cases.

  • Lead technical training and project coordination across customers, business lines, and partners - running webinars, workshops, and deep-dives while managing timelines and deliverables.

Core Requirements
  • Bachelor's or Master's in Electrical Engineering, Computer Engineering or Computer Science

  • 10+ years in embedded systems development or applications support of MPU / SoC-based platforms running embedded Linux, with demonstrated technical leadership.

  • Strong embedded Linux experience across the full stack: bootloader (u-boot), kernel and device drivers, device tree, Yocto / build system, and user-space integration.

  • Proficient in C/C++ for embedded development, plus working knowledge of Python or scripting for tooling and automation.

  • Hands-on experience with ARM Cortex-A class application processors and heterogeneous compute architectures pairing application cores with real-time microcontroller cores.

  • Working knowledge of high-speed application-processor interfaces and how to design around them: LPDDR, PCIe, USB 3.x, MIPI-CSI / MIPI-DSI, Gigabit / Multi-Gigabit Ethernet, SDIO / eMMC, and QSPI.

  • Experience optimizing PCB design for high-speed application-processor interfaces (impedance control, length matching, EMC/EMI, and power integrity).

  • Strong troubleshooting skills with schematic review, signal analysis, and lab tools.

  • Excellent verbal and written communication for both technical and non-technical stakeholders.

  • Demonstrated leadership and ability to operate autonomously

  • Willing to travel, primarily within North America.

Specialty & Bonus Skills
  • Hands-on experience enabling AI / ML workloads on edge processors and integrated NPUs, including model conversion and optimization from common training frameworks to on-device inference for robotics perception.

  • Working knowledge of computer-vision and sensor-fusion pipelines: MIPI-CSI camera bring-up, ISP tuning, multi-camera synchronization, and fusion of camera, LiDAR, radar, time-of-flight, and IMU inputs feeding perception and localization.

  • Familiarity with robotics middleware and stacks: Rust, ROS / ROS 2, DDS, real-time Linux (PREEMPT_RT), and common SLAM, navigation, and motion-planning frameworks.

  • Experience with heterogeneous compute and inter-core communication frameworks (e.g., RPMsg / OpenAMP) used to combine Linux with real-time control on a single SoC.

  • Working knowledge of platform security: TrustZone, secure boot, OP-TEE, integrated secure enclaves, and secure-element integration for authenticated robotics endpoints.

  • Familiarity with connectivity in robotics - Wi-Fi, Bluetooth / BLE, 802.15.4, UWB, NFC - and in-robot networking interfaces such as Gigabit / Multi-Gigabit Ethernet, TSN-capable interfaces, and Single-Pair Ethernet.

  • Familiarity with power-management subsystems for application processors (PMIC integration, DVFS, multi-rail / thermal management) and battery-powered system architectures, including 48V platforms.

  • Working knowledge of functional safety (ISO 26262, IEC 61508 / SIL 2-3) and cybersecurity (ISO 21434, IEC 62443) standards relevant to industrial and automotive edge-compute systems.

The base salary range for this position is as mentioned below per year. We also provide competitive benefits, incentive compensation, and/or equity for certain roles.
Company benefits include health. dental, and vision insurance. 401(k), and paid leave. Please note that the base salary range (OR hourly rate) is a guideline, and individual total compensation may vary based on a number of factors such as qualifications, skill level, work location, and other business and organizational needs. This base pay range is specific to California and is not applicable to other locations. A reasonable estimate of the base salary range as of the date of this posting is:

$166,200 to $228,500 annually

More information about NXP in the United States...

NXP is an Equal Opportunity/Affirmative Action Employer regardless of age, color, national origin, race, religion, creed, gender, sex, sexual orientation, gender identity and/or expression, marital status, status as a disabled veteran and/or veteran of the Vietnam Era or any other characteristic protected by federal, state or local law. In addition, NXP will provide reasonable accommodations for otherwise qualified disabled individuals.

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