Salvatore Stolfo
Professor of Computer Science, Columbia University. Ph.D. - NYU Courant Institute.


Ron Rivest
Professor of Electrical Engineering and Computer Science at MIT. Ph.D. Stanford.

Note: the following books are not recommended by Professor Rivest. They are books that have been used as reference texts in one/some courses he has taught.

Security electronics is a field that deals with the design, implementation, and maintenance of electronic security systems. These systems are used to protect against unauthorized access, unauthorized use, and other security threats. This field combines principles of electrical engineering and computer science to develop security solutions that are reliable and effective.

One of the key areas of study in security electronics is access control systems. This includes the design of electronic systems that are used to control access to physical and logical resources. This can include systems such as card readers, biometric scanners, and keypads that are used to authenticate users.

Another important area of study in security electronics is video surveillance systems. This includes the design of electronic systems that are used to capture and record video footage for security purposes. This can include systems such as CCTV cameras, network cameras, and video analytics software.

A third area of study in security electronics is intrusion detection systems. This includes the design of electronic systems that are used to detect unauthorized access or other security breaches. This can include systems such as motion sensors, door and window contacts, and alarm systems.

A fourth area of study in security electronics is encryption and decryption. This includes the study of techniques for encrypting and decrypting data to ensure its confidentiality and integrity. This can include symmetric encryption, asymmetric encryption, and the use of cryptographic protocols such as SSL/TLS.

A fifth area of study in security electronics is network security. This includes the study of techniques for protecting networks and networked devices from unauthorized access and other security threats. This can include firewalls, intrusion detection systems, and virtual private networks (VPNs).

A sixth area of study in security electronics is wireless security. This includes the study of techniques for protecting wireless networks and wireless devices from unauthorized access and other security threats. This can include wireless encryption, wireless intrusion detection systems, and wireless network security protocols such as WPA and WPA2.

A seventh area of study in security electronics is security in embedded systems. This includes the study of techniques for protecting embedded systems from unauthorized access and other security threats. This can include secure boot, secure firmware updates, and secure communications protocols.

An eight area of study in security electronics is security in the Internet of Things (IoT). This includes the study of techniques for protecting IoT devices from unauthorized access and other security threats. This can include secure communications protocols, secure device management, and secure data storage.

Overall, security electronics is a critical field that deals with the design, implementation, and maintenance of electronic security systems. It combines principles of electrical engineering and computer science to develop security solutions that are reliable and effective. As technology continues to evolve, the field of security electronics will play an increasingly important role in ensuring the security and privacy of individuals and organizations.