A bachelor’s degree is awarded to college and university undergraduates who complete academic coursework specific to their field of study. Many disciplines unrelated to science are awarded a BSc, or a Bachelor of Science, though some might think it is a degree specific to the sciences.
What is a BSc in Robotics? Students who study robotics learn how to design and operate robotic and mechatronic systems. The degree helps students develop advanced integrated engineering knowledge, important for success in the robotics industry. They may also learn how to manage robotic control systems, understand mechanics, applied electronics and machinery. Advanced mathematics is also an important component of the degree.
Robotics students usually become skilled analysts and problem-solvers, who can take on a challenge and design a robotic answer to the puzzle. Graduates understand multiple computer languages and gain practical skills operating and programming industrial machinery, that can help with many careers in technology.
An average student can complete BSc in Robotics coursework in three to five years, depending on individual ability and availability. Cost to attend depends on whether the school is public or private and the length of time it takes to complete required coursework. Location can also effect overall tuition cost.
Graduates can pursue careers in science, research and industry. Some may become industrial engineers, while others might choose to design robotic systems, work as diagnostic engineers or lead as technologists. Industries looking for graduates with a BSc in Robotics include manufacturing, federal and government industries as well as academia. Students may also decide to pursue further education, becoming researchers and designers specializing in nanotechnology, material physics or nanoscale science.
Students will discover that many colleges and universities offer a BSc in Robotics and are located all over the world. You may also find online schools providing coursework toward the degree. Search for your program below and contact directly the admission office of the school of your choice by filling in the lead form.
The comprehensive major in nanoscience is the study of structures in nanometer size which is smaller than cells but larger than most molecules. At Northwest, this interdisciplinary majors focuses on providing practical laboratory experiences, isolating DNA and synthesizing nanoparticles to construct solar cells. Students can choose to specialize in nanoscale biology, nanoscale chemistry or nanoscale physics. [+]
This course provides a solid grounding in the design and realisation of modern embedded systems with particular emphasis on robotic systems. The latter have, in recent years, become a fast-growing and exciting application area of embedded systems, and this course builds on more than two decades' of robotics experience within the Department. [+]
Robotics is a science of robots and intelligent technology, which is already fundamentally changing the face of humanity. The KTU study programme combines electronics, mechatronics, computer control, signal processing, artificial intelligence and programming in the design, development and application of robots and their integration with other systems in the work environment. [+]
BSc in Materials and Nanotechnologies analyse the ways various materials are created and applied in industry and contemporary high (micro-, nano-) technologies, how characteristics of materials are researched, evaluated and changed. Acquiring knowledge of material composition, physics and chemistry, the graduates are able to select suitable materials or production technologies, and to find solutions for various engineering and technical issues. [+]
The aim of this study programme is to prepare versatile professionals who will be able to design mechatronic and robotic systems, operate them and work in industry that require advanced integrated engineering knowledge. [+]
Graduate engineering studies provide knowledge of basic problems of automation and robotics: dynamic systems, signal processing, robot kinematics, components and industrial automation equipment, design and programming of microprocessor systems, industrial controllers, sensors and vision systems. [+]