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Japan Robotics Engineer Jobs in Texas (NOW HIRING)

Japan Robotics Engineer information

See Texas salary details

$27K

$98.4K

$157.4K

How much do japan robotics engineer jobs pay per year?

As of Jul 18, 2026, the average yearly pay for japan robotics engineer in Texas is $98,387.00, according to ZipRecruiter salary data. Most workers in this role earn between $77,800.00 and $118,300.00 per year, depending on experience, location, and employer.

What is the difference between Japan Robotics Engineer vs Japan Automation Technician?

AspectJapan Robotics EngineerJapan Automation Technician
Required CredentialsEngineering degree, robotics certificationsTechnical diploma, automation system certifications
Work EnvironmentDesign, development, programming of robotsInstallation, maintenance, troubleshooting of automation systems
Employer & Industry UsageManufacturing, research labs, tech companiesFactories, production lines, industrial plants

Japan Robotics Engineers focus on designing and programming robots, requiring engineering degrees and specialized certifications. Automation Technicians handle installation and maintenance of automation systems, often with technical diplomas. Both roles are vital in manufacturing but differ in responsibilities and skill requirements.

What are some common challenges Japan Robotics Engineers face when integrating robots into traditional manufacturing environments?

Japan Robotics Engineers often encounter challenges when adapting advanced robotics solutions to legacy manufacturing systems, such as ensuring compatibility with existing machinery, managing data integration, and addressing workforce training needs. There can also be cultural and process-related hurdles, as teams may be accustomed to manual workflows. Successful engineers collaborate closely with production staff, provide clear documentation, and participate in cross-functional meetings to align robotics initiatives with on-the-ground operational realities.

What is a Japan Robotics Engineer?

A Japan Robotics Engineer is a professional who designs, develops, and maintains robotic systems, often working in industries like manufacturing, healthcare, and electronics in Japan. They combine knowledge of mechanical engineering, electronics, computer programming, and artificial intelligence to create robots that improve efficiency and solve complex tasks. These engineers may work on everything from industrial robots used in car factories to humanoid robots for customer service. Japan is renowned for its advancements in robotics, making this a highly innovative and in-demand field. Fluency in Japanese and familiarity with Japanese manufacturing standards are often important for this role.

Which country is no. 1 in robotics?

Japan is widely recognized as the leading country in robotics, with a strong industry focus on manufacturing and advanced robotic technologies. Robotics engineers in Japan often work with cutting-edge automation tools and collaborate with top robotics research institutions. The country maintains a significant global presence in robotics innovation and production.

Which engineer is most in demand?

Robotics engineers are highly in demand in Japan due to the country's focus on automation and technological innovation. Skills in automation, control systems, and programming languages like C++ and Python are particularly valuable, along with experience in designing and maintaining robotic systems.

Can a US citizen get a job in Japan?

A US citizen can work as a robotics engineer in Japan by obtaining the appropriate work visa, which typically requires a job offer from a Japanese employer, relevant skills, and sometimes certification or language proficiency. Employers often sponsor visas for qualified professionals, and knowledge of Japanese language and industry-specific tools can improve chances of employment.

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

To excel as a Japan Robotics Engineer, you need a solid background in mechanical or electrical engineering, computer science, and robotics, typically validated by a bachelor’s or master’s degree in these fields. Familiarity with CAD software, programming languages such as C++ or Python, and hands-on experience with robotic operating systems (ROS) and automation tools are essential. Strong problem-solving abilities, teamwork, and effective communication are important soft skills for designing and implementing complex robotics solutions. These skills and qualifications are critical for driving innovation and ensuring the reliability and efficiency of advanced robotics systems in Japan's highly competitive technology sector.

What is the salary of a Robotics Engineer in Japan?

A Robotics Engineer in Japan typically earns between 4 million and 8 million yen annually, depending on experience, skills, and the industry sector. Entry-level positions may start lower, while experienced engineers with specialized skills in automation and programming can earn higher salaries.
What cities in Texas are hiring for Japan Robotics Engineer jobs? Cities in Texas with the most Japan Robotics Engineer job openings:

Deep Learning - Robot Manipulation Engineer

Persona AI

Houston, TX • On-site

Full-time

Medical, PTO

Posted yesterday


Job description

Job Title: Deep Learning - Robot Manipulation Engineer
Department: Machine Learning
Reports To: Head of Machine Learning
Employment Type: Full-Time
Location: Houston, TX
Travel: 10%
Who We Are
Persona AI is building humanoid robots for the most demanding environments in heavy industry - shipyards, steel mills, fabrication facilities, and offshore platforms - performing welding, grinding, maintenance, inspection, and material-handling work that is dangerous, physically demanding, and increasingly difficult to staff.
We are backed by leading strategic and financial investors and engaged with global industrial leaders across Korea, Japan, the United States, and Singapore. Korea is the center of gravity for our early commercial strategy, anchored by relationships with the world's leading shipbuilders and steelmakers. Our work spans both the robot platform itself and the systems, partners, and playbooks required to deploy it at scale.
Why Join Persona AI?
  • We offer competitive compensation, a performance-based bonus, 99% employer covered medical benefits, early-stage equity, competitive PTO, and a company-wide paid winter break between December 24th and January 2nd.
  • You'll shape technology that's redefining the possibilities of robotics and human interaction.
  • Work alongside passionate teammates who value creativity, and continuous learning.

About the Role
We're looking for a Deep Learning Manipulation Engineer to help train Persona AI robots to do real work in real world environments. We're looking for exceptional people who dream big, thrive on challenges, and love seeing their efforts come to life. We are primarily interested in candidates who have developed and released products to the market, but can be flexible depending on aptitude and energy.
As one of the inaugural Deep Learning Manipulation Engineers at Persona, you will have an incredible opportunity to get in at the beginning to shape the design and development of Persona's deep learning and manipulation strategy and infrastructure. If you're passionate about cutting-edge technology and want to be part of a world-class team we'd love to hear from you.
What You Will Be Doing
  • Design and implement advanced deep learning models and training procedures to achieve dexterous manipulation for humanoid robots with high DOF and multi-fingered hands.
  • Train models, using curriculum learning strategies, to progress from simple object interactions to precise grasping, long-horizon tasks, tool-use, and in-hand object manipulation.
  • Incorporate tactile sensing and proprioception into end-to-end learning pipelines, enabling robust closed-loop policies.
  • Work with the teleoperation and data team to design data collection and versioning strategies.
  • Leverage existing state-of-the-art manipulation models and contribute to the development of new architectures for emerging complex tasks.
  • Deploy trained manipulation models to robotic hardware, ensuring real-time performance, safety, and integration with control systems and sensors.
  • Collaboratively develop and optimize the manipulation ML pipeline.
  • Keep up to date with the state of the art in research and development.
  • Develop and execute evaluation pipelines to rigorously test learned manipulation models, including real-world trials and simulation, measuring performance, robustness, and generalization across tasks and environments.
  • Collaborate in attracting, nurturing and growing the machine learning and autonomy teams.

What We Are Looking For:
  • Courage and grit to tackle some of the hardest problems in robot manipulation.
  • Enthusiasm for working collaboratively in fast paced ambiguous environments.
  • Masters or PhD in Robotics, Computer Science, or a related field.
  • 3+ years of experience in applying deep learning to robotic manipulation.
  • Strong understanding and proficiency with state of the art algorithms and best-practices in behavior cloning, vision-language-action models, diffusion policies, foundation models, etc.
  • Experience with cloud computing and large-scale datasets.
  • Understanding of the challenges of deploying neural network models in the real world.
  • Capable of writing high quality software.
  • Strong first principles thinker.

Bonus Skills:
  • Experience with other aspects of ML applied to robotics, including computer vision algorithms, sensors, point clouds, segmentation and object detection.
  • Published papers at top ML/Robotics conferences (ICML, ICRA, CoRL, RSS, NeurIPS).
  • Have deployed robots, collected large amounts of data, and trained large neural networks that work in production environments.

Persona AI is an Equal Opportunity Employer.
All qualified applicants will receive consideration for employment without regard to race, color, religion, sex, national origin, sexual orientation, gender identity, age, disability, veteran status, or any other characteristic protected by applicable federal, state, or local law.