Cyber Security Risks in Robotics

Cyber Security Risks in Robotics

Ishaani Priyadarshini (KIIT University, India)
Copyright: © 2017 |Pages: 16
DOI: 10.4018/978-1-5225-2154-9.ch022
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Abstract

With technology flourishing at a rapid rate, humans have been able to achieve considerable heights of success. Accomplishment of tasks nowadays is either a click away or a command away in most of the technological arenas. One such realm of technology is that of Robotics which has been there for almost a century and continues advancing day by day. The evolution of robotics has ranged from the basic remote controlled systems to humanoid robots. With applications as well as accuracy increasing for every new system implemented, security risks too have been making their way into the new invention. Since different robots have been created for different purposes in different fields like the defense, household, medical or the space, protecting systems against their exploitation is of utmost importance as these fields incorporate sensitive as well as intricate tasks. This chapter focuses on the security aspects of Robotics. The necessity of Cyber security in Robotics has been explored by taking different kinds of robots used in different fields. The current state of Robotics is vulnerable to many risks and several case studies have been highlighted to support the need of securing Robotics by identifying several risks to which it is vulnerable. Apart from that mitigation strategies have been discussed to secure the domain of Robotics. An attack comparison has been made for three robots in analyzing them against the vulnerabilities faced by them.
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Background

The history of robots can be traced back to the 20th century when a mere humanoid machine was introduced. Gradually it developed into what we call the robot nowadays. The first generation of robots saw stationary, non-programmable, electromechanical devices which lacked sensors. They were replaced by second generation robots which came with sensors and controllers. The third generation robot was an even more refined version of the second generation robot and was full of features. It could be stationary or mobile and could provide complex programming along with speech recognition and synthesis. The fourth generation of robots is currently undergoing research and is under the developing phase. Over the time, the definition for robots has kept on changing. A robot may be defined as a unit devised to carry out tasks in a repeated manner, keeping a track of speed and precision. The term robot comes from the Czech word ‘robota’ depicting ‘forced labor’. A robot may be controlled by a human operator as well as a computer (Struuk, 2014). Robots may be classified into two types depending on how they are controlled.

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