Earning a bachelor’s degree is a great way to learn about a specific topic in-depth and potentially prepare for a career in the field. Students enrolled in such a program usually complete both lower- and upper-division coursework over the course of a four-year program, but specific program length varies.
What is a Bachelor in Robotics? A Bachelor in Robotics explores the theory, engineering, and application of robotic technology. Students have the opportunity to take classes such as Information Technology for Robotics, Machine Learning, Artificial Intelligence, and Robotics System Design. This curriculum will both acquaint enrollees with the knowledge necessary to work in robotics—it will also equip them with the practical experience necessary to apply this knowledge.
The familiarity with technology students gain is just one benefit such a program commonly offers. You can also expect to learn transferable skills such as basic engineering, project management, design, and scientific application. You can use skills such as these in robotics and many other fields as well.
Cost of attendance for a Bachelor in Robotics depends on where you earn the degree and many other factors. For the most accurate information, you should reach out to the institution you plan to enroll at and inquire with the admissions office.
The career opportunities for students who graduate with a Bachelor in Robotics are often many. Perhaps the most commonly sought profession is that of robotics engineer. Your degree will certainly prep you for this job, but you may also be interested in pursuing positions such as software developer, operator, robotics technician, or controlled machine programmer.
If you believe a Bachelor in Robotics is right for you, take the first step and find the school with the right program for your interests and needs. Search for your program below and contact directly the admission office of the school of your choice by filling in the lead form.
The degree in Electronic Engineering Telecommunications is framed within the ICT environment and enjoys its own technological base and clearly defined and professional sk
"The electronics plays a key role in the development and technological progress of society. Technology is the main support for the areas of communications, control and data processing.
The degree in Electronic Engineering Telecommunications is framed within the ICT environment and enjoys its own technological base and clearly defined and professional skills in high demand.
By studying the mention in Robotics, you will study the world of robotics applied to multiple sectors, among which social, educational, therapeutic and assistive robotics, creating technology that will transform trades and improve everyday life, creating tangibles alive artificial, a sector with strong growth and great future. "...
The main disciplines of specialization: Information Technology; Engineering and computer graphics; Electrical Equipment; Applied Mechanics; Condensed matter physics;
Undergraduate - Nanotechnology and Microsystem Technology Place of study: Institute of Natural Sciences and Biomedicine (IENiBM), Northern (Arctic) Federal University named after MV Lomonosov, Arkhangelsk, Russia
The main disciplines of specialization:
Engineering and computer graphics;
Condensed matter physics;
Materials nanostructured materials;
Physical fundamentals of micro- and nanosistemnoy equipment;
Physical and chemical bases of processes of micro- and nanotechnology;
Methods of analysis and control of nanostructured materials and systems;
Modeling and design of micro- and nanosystems
The main disciplines of specialization: Engineering and computer graphics; Fundamentals of mechatronics and robotics; Electrical Equipment; Electronic devices mechatronic
Undergraduate - Mechatronics and Robotics Place of study: Institute for Energy and Transport (IEiT) Northern (Arctic) Federal University named after MV Lomonosov, Arkhangelsk, Russia The main disciplines of specialization:
Engineering and computer graphics;
Fundamentals of mechatronics and robotics;
Electronic devices mechatronic and robotic systems;
Automatic Control Theory;
Details of mechatronic modules, robots and their design;
Microprocessor technology in mechatronics and robotics;
Software mechatronic and robotic systems;
The electrical and hydraulic actuators of mechatronic and robotic devices.
Automatic and automated systems;
Management and control;
Mathematical, algorithmic, software and information support;
The methods and techniques of design, manufacture, debugging and operation;
Scientific studies and testing in the industry, including defense, energy, transport, medicine and agriculture.
Globalization implies competition in the international arena in all aspects of the business. Manufacturing and service industries are particularly affected by the drive t
Globalization implies competition in the international arena in all aspects of the business. Manufacturing and service industries are particularly affected by the drive to find the cheapest suppliers and most knowledgeable workers. Only companies or nations that take full advantage of advanced technology are well equipped to answer the needs of 21st-century consumers. Nanotechnology is one of such advances that can, and will, impact all manufacturing sectors: from heavy industries to small, from automobile and petrochemical to textile and clothing. Those in the service industries thus need to keep pace with advances in nanotechnology if they are to provide customers with the most cutting-edge and efficient solutions, such as nanochip solutions to biomedical or telecommunications service providers....
The presence of microchips or integrated circuits in nearly every kind of modern machine allows for some degree of intelligence in most mechanical and electronic devices.
Bachelor Degree in Machine Intelligence and Robotics
The presence of microchips or integrated circuits in nearly every kind of modern machine allows for some degree of intelligence in most mechanical and electronic devices. Automated processes, “expert” systems; tasks involving sorting, routing, reminding, adjusting and even repairing, all may involve some level of programming that has been designed, developed and tested by a person or team that understands applied informational technologies, machine intelligence and/or robotics. Students in this faculty are often fascinated by the philosophical, as well as the technical aspect of artificial intelligence, although the curriculum is primarily focused on applications....
The aim of this program is to provide students with technical and specialized knowledge as well as with theoretical foundations necessary for development and innovations
Bachelor in Textile Technologies, Materials and Nanomaterials
The graduates acquire the comprehensive knowledge of conventional, high added value and smart materials, nanomaterials, technologies, and their applications. The aim of this program is to provide students with technical and specialized knowledge as well as with theoretical foundations necessary for development and innovations of technological procedures and preparation and application of outputs of higher order innovations. In the program taught at the largest textile engineering faculty in Europe, students gain both theoretical knowledge and hand-on-experience in production. The study program aims at providing qualifications for entering a profession or a Master's study program. It draws directly on current knowledge and methods while also including theoretical knowledge....
The Bachelor aims at developing Engineers with a broad range of skills in the area or Artificial Intelligence including machine learning, big data and signal processing f
IPSA : Aeronautics and Space Graduate School of Engineering
IPSA is an engineering school 100% dedicated to Aeronautics and Space. The interest in « everything aerospace » is a particular source of motivation in the school and the passion is shared by both students and lecturers. The school is located in Paris and Toulouse.
IPSA is accredited by the « Commission des Titres d’Ingénieurs » (CTI, accreditation body for the French engineering schools).
IPSA in figures
1700 students on two campuses: Paris-Ivry and Toulouse
+60 partner universities
200 partner industries
40 student associations
85% of students hired within 3 months after graduation
The Mechatronics and Robotic Systems programme at XJTLU is a new cutting-edge major for a fast-growing industry. Students on this programme can learn and apply technologi
Mechatronics and robotic systems are new branches in engineering that are applicable to every sector of society. Remotely operated vehicles on Mars, programmable washing machines at home, and automated robots in manufacturing assembly lines are just some of the applications of mechatronics and robotic systems. These products are essentially mechanical in nature but could not function without electronics and computer control systems.
The Mechatronics and Robotic Systems programme at XJTLU is a new cutting-edge major for a fast-growing industry. Students on this programme can learn and apply technologies in mechanical engineering, electronics, electrical engineering, control engineering and scientific computing. Graduates will be able to design, integrate, and test complete mechatronic systems and products....
The robotics and automation engineering technology bachelor’s degree provides students the technical knowledge and analytical skills needed to design, build, and control
The robotics and automation engineering technology bachelor’s degree provides students the technical knowledge and analytical skills needed to design, build, and control the movements and actions of robots and automation systems. This program provides experiential learning in the fundamental areas of machine design and analysis and digital and analog circuits, along with specialized training in robotics and automation topics such as automated control systems, manufacturing, robotic programming algorithms, and various sensor systems including machine vision.
The robotics and automation engineering technology degree option responds to the increasing need for professionals in the growing fields of robotics and automation. The curriculum provides students with a solid background in the three cornerstone disciplines of the field: mechanical engineering technology, electronic and computer engineering technology and computer systems technology. Students are challenged to apply course principles in hands-on, industry-relevant projects throughout the program....