Surgical Robots engineering jobs

Project overview

The surgical robots project is a state-of-the-art initiative in the medical devices sector, which aims to design and develop robotic systems to assist surgeons in performing complex surgical procedures. The project will utilize cutting-edge technologies such as artificial intelligence and machine learning to enhance the precision and accuracy of surgical robots. The ultimate goal of this project is to improve patient outcomes, reduce surgery time, and enhance the overall efficiency of surgical procedures.

Roles and techniques

Project Manager Electrical Engineer Lead Engineer Mechanical Engineer Data Scientist Robotics Engineering Artificial Intellegence and Machine Learning Sensor Technology Control Systems Engineering Software Development


Surgical Robots engineering jobs

Project information

The surgical robots project is a revolutionary initiative that aims to transform the field of surgery by leveraging cutting-edge technologies. The project will utilize robotics, artificial intelligence, and machine learning to enhance the precision and accuracy of surgical procedures. By doing so, the project will not only improve patient outcomes but also make surgical procedures faster, more efficient, and less invasive.

Project size

The development of surgical robots is a complex and costly process that requires significant investments in research and development. As such, the project size for this undertaking is significant, both in terms of the number of professionals and companies involved as well as the overall CAPEX range. The project involves collaboration between a range of professionals, including mechanical and electrical engineers, computer scientists, medical professionals, and software developers. In addition, a variety of companies may be involved in the development and manufacturing of surgical robots, including medical device manufacturers, technology firms, and robotics companies.

Given the complexity and technical nature of the project, the number of professionals involved can be substantial. In addition to the professionals mentioned above, the project may also require specialists in fields such as materials science, artificial intelligence, and human factors engineering. Furthermore, the project may require the involvement of multiple companies at various stages of the development process. This can include prototyping and design firms, manufacturing and assembly companies, and software development firms.

The CAPEX range for the development of surgical robots can also be significant. This is due to the substantial research and development costs associated with designing and testing new technology, as well as the costs of manufacturing and bringing the product to market. The costs can be further amplified by the need for regulatory compliance and the expenses associated with obtaining necessary certifications. As such, the project size for the development of surgical robots is substantial, both in terms of the number of professionals involved and the overall CAPEX range required to bring the product to market.

In addition to the costs associated with the development of surgical robots, there are also ongoing costs associated with maintenance and support of the technology. This can include costs associated with software updates, hardware repairs, and replacement parts. As such, ongoing investments may be required even after the product has been launched to ensure that it continues to function effectively and meet the needs of medical professionals and patients.

Professionals and companies

The surgical robots project involves a wide range of professionals and companies. The project is led by the medical devices manufacturing company, which provides the funding for the project. The project team consists of engineers, software developers, medical professionals, project managers, and quality control personnel. The engineers are responsible for designing the robots and ensuring they meet the necessary safety and quality standards. The software developers write the code that controls the robots and interfaces with the control console. The medical professionals, including surgeons, anesthesiologists, and nurses, provide input on the design of the robots and provide feedback on their performance during testing. The project managers ensure that the project stays on schedule and within budget, and the quality control personnel ensure that the robots meet the necessary regulatory requirements.

The manufacturing company works with several external companies to bring the project to fruition. These include component manufacturers who supply the hardware and software needed for the robots, as well as contract manufacturers who assemble the robots according to the project specifications. Additionally, the company partners with hospitals and surgical centers to test the robots in real-world settings, and to gain feedback from medical professionals on how to improve the robots.

The project also involves several regulatory bodies, including the Food and Drug Administration (FDA) and the European Medicines Agency (EMA). These organizations provide guidance on the necessary safety and quality standards that the robots must meet, and oversee the approval process for bringing the robots to market.

Finally, the project involves investors and stakeholders who provide financial support and have a vested interest in the success of the project. These may include venture capitalists, private equity firms, and other organizations that are looking to invest in cutting-edge medical technology.


Used equipment

The surgical robots project utilizes cutting-edge robotic technology in the field of surgery, enabling doctors to perform minimally invasive procedures with greater accuracy and precision. This requires the use of specialized robotic equipment that is designed to work in close proximity to human tissue and organs.


Robotic arms

These are the primary equipment used in the surgical robots project. They consist of multiple joints and end effectors that enable precise and accurate movement, which is essential for surgical procedures.


High-resolution cameras are used to capture images and video during surgical procedures. These cameras are integrated with the surgical robots to provide surgeons with a clear view of the surgical site.


Sensors are used to measure various parameters such as force, temperature, and pressure during surgical procedures. This data is then used to control the movement of the surgical robots and ensure the safety of the patient.

Computer systems

High-performance computer systems are used to process large amounts of data generated during surgical procedures. This data is then used to improve the performance and accuracy of the surgical robots.

Visualization systems

These are used to provide surgeons with a real-time, 3D view of the surgical site. This enables them to perform complex surgical procedures with greater precision and accuracy.


Surgical Robots jobs

Project timeline

Phase 1

Initiative & feasibility

Identifying the need for surgical robots, evaluating feasibility and proposing a concept.

Phase 1
Phase 2

Design & planning

Creating detailed design plans, selecting the most suitable components, and defining the requirements.

Phase 2
Phase 3

Engineering & tendering

Preparing technical specifications, issuing tenders, selecting suppliers, and placing orders for components.

Phase 3
Phase 4


Manufacturing, assembling and testing of the surgical robots, ensuring compliance with specifications.

Phase 4
Phase 5


Site preparation, installation, testing, and acceptance of the surgical robots.

Phase 5
Phase 6

Operations & maintenance

Providing training, maintenance, and support services, ensuring reliability and availability.

Phase 6


Company roles


The government plays a critical role in this project as they are responsible for setting the regulations and standards for medical devices. They will also oversee the procurement process for the surgical robots and ensure that they meet all safety and quality requirements. The government may also provide funding for the project and monitor its progress to ensure that it is delivered on time and within budget.


The client in this project is the hospital or medical facility that will be using the surgical robots. Their role is to identify their specific needs and requirements for the robots, provide input during the design and planning phase, and oversee the construction and commissioning of the robots. They will also be responsible for the ongoing operation and maintenance of the robots once they are in use.


The consultant is an expert in the field of surgical robotics and will provide technical advice and support throughout the project. They will work closely with the design and planning team to ensure that the robots are tailored to the client's needs and meet all regulatory requirements. The consultant will also provide guidance on the selection of equipment and suppliers, and oversee the construction and commissioning of the robots.


The contractor is responsible for the construction and installation of the surgical robots. Their role includes managing the construction schedule and budget, coordinating with suppliers and subcontractors, and ensuring that the robots are built to the specifications and standards set out in the design and planning phase. The contractor will also be responsible for overseeing the commissioning of the robots and ensuring that they are fully operational and meet all safety and quality requirements.


The supplier is responsible for providing the necessary equipment and components for the construction of the surgical robots. They will work closely with the contractor and design team to ensure that the equipment meets the required specifications and standards. The supplier will also provide ongoing support and maintenance for the equipment once the robots are in use. Their role is crucial in ensuring that the project is delivered on time and within budget.