The Security Industry Association (SIA) has identified three data communication protocols to include in Open Systems Interoperability and Performance Standards (OSIPS) for electronic security devices as part of an effort to improve the ability of the devices to work with each other.
SIA’s Pan Industry Data Model Subcommittee has selected the protocols in an effort to establish standard communication protocols, or “bindings,” that will allow for greater interoperability among access control, video surveillance and other components of security systems.
The panel identified these three protocols as:
- Session Initiation Protocol (SIP) for streaming audio
- Real-time Transport Protocol/Real Time Streaming Protocol (RTP/RTSP) for streaming video
- Simple Object Access Protocol (SOAP) for non-streaming content
The subcommittee’s selections will be included in SIA’s OSIPS, a family of standards that addresses an ever-growing number of technical aspects of electronic security devices. OSIPS already includes standards for the data used by individual security components, and industry demand has been growing for bindings standards that will enable those components to communicate with each other.
“Now that the hard work on the data models is substantially complete, it is exciting to finally turn to the bindings to expedite industry acceptance and use of the OSIPS standards,” says Rob Zivney, vice president of marketing for Hirsch Electronics and a member of both the subcommittee and SIA’s Board of Directors. “Our data models have addressed such a comprehensive range of use cases that we knew we needed a comprehensive and scalable set of bindings. This is a good start to build upon.”
The identification of bindings standards is part of a revision to the OSIPS Framework, a set of SIA-developed standards approved by the American National Standards Institute (ANSI) in August 2008. The subcommittee is continuing to work on incorporating the bindings standards into the framework, and discussions are expected on issues related to security and performance, as well as the completeness of the selections.