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COMPRO 385: Robotics
Industrial organizations are increasingly relying on robotic systems to fulfill their work, but the
complexities of this technology have many limitations. Natural disasters, for example, can disrupt robotic
systems and cause high financial or economic losses. Other issues can affect robotic performance, such as
the quality of data transmission. Track and trace problems can negatively affect real-time location of
robotic transits and deliveries. This can lead to supply chain poisoning.
Cyber-attacks are another concern for industrial robots. Malicious applications are increasingly common,
and they often disguise themselves as legitimate applications to trick robotic users. These malicious
applications may also pose a threat to data integrity or authentication by changing messages or
introducing fake robots to the network. Once installed on a user’s computer, these malicious applications
can access personal data, even from robotic systems. The risk is even greater if the robot is used in an
industrial environment, where data security is vital.
Industrial robots are now widespread in many fields and domains. Industrial robots are used in everything
from product delivery to wildlife monitoring. Robots are being implemented into production lines to
reduce manual labor. In addition to reducing human labor, industrial robots have been deployed in disaster
relief, search and rescue, and anti-COVID-19 applications. This paper also discusses the benefits and
challenges of robotic applications, including safety, security, and accuracy.
Cyber-attacks on robotics range from phishing to malware. In both cases, hackers collect data from robots
and send it to malicious third parties. Once the robots are installed, they can monitor user activities and
collect sensitive data. These attacks are especially harmful if they are state-sponsored and can be used to
steal sensitive information. They can also be used to steal sensitive information or to declassify
documents.
Lack of appropriate authentication and authorization is another potential risk. Humans can access
sensitive data on robotic systems, but without proper authentication, they can potentially compromise the
integrity of the data. In addition, inadequate encryption algorithms can expose design plans and business
deals. Ultimately, the lack of security can result in compromised robots and a significant time-to-repair.
Hence, it is important to maintain strict security policies and procedures for robotic systems.
Cybersecurity is a major concern for the development of robotic systems. Robots can help humans in the
industrial, medical, and agricultural sectors. They can also assist critical infrastructures. The challenges
associated with the development of robots are safety, accuracy, and trust. All of these are important
aspects of any society. They are increasingly being used in a wide variety of settings. If you have an
interest in robotics, this class is for you.
COMPRO 385: Visual Computing
Students who are interested in advancing computer vision and graphics applications will benefit from a
course in visual computing. This course explores the fundamentals of image capture, computer graphics,
and human vision. Students gain hands-on experience prototyping imaging systems, such as those used in
robotics. Graduates will be equipped with the knowledge and skills needed to play a crucial role in an
organization. In addition to advancing industry standards, these graduates will be able to influence
strategic decisions and lead the development of new products.
Computer graphics is a broad field that includes the creation and analysis of images. Computer graphics
involves the transformation of object descriptions into visually appealing images. These images are often
the result of trade-offs between image quality and run-time. In addition to creating realistic images,
computer vision involves the analysis of images. Ultimately, visual computing involves the analysis of
images to reveal the content. In addition, computer vision also includes human-machine interaction.
SUNY Stony Brook’s Center for Visual Computing (CVCS) is a specialized research center that supports
computer graphics and video technology. The Center attracts major federal and state funding and fosters
interdisciplinary interaction. Students will learn about the newest developments and concepts in Visual
Computing, such as the role of Artificial Intelligence. Visual Computing students will also be introduced
to the various areas of visual design and animation, such as Character Animation, Digital Storytelling, and
Computer-Aided Design.