APCO-16

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Project 16 or APCO Project 16 was a standards development effort started in the 1970s by the Associated Public Safety Communications Officers, a trade association of mostly police and fire service providers. The program was funded by the Law Enforcement Assistance Administration (LEAA), a part of the US Department of Justice.^[1][2]

Contents 1 Details 2 History 3 Result 4 Notes 5 See also

[edit] Details

In telecommunications, APCO Project 16 is a standard describing the characteristics and capabilities of public safety trunked radio systems such as:

• channel access times
• automated priority recognition
• data systems interface
• individuality of system users
• command and control flexibility
• system growth capability
• frequency use
• reliability

[edit] History

With the Federal Communications Commission's pending release of the first 800 MHz band licenses, the LEAA funded a project to develop required capabilities and standards needed in trunked public safety two-way radio systems. The standards also gained acceptance in businesses such as Specialized Mobile Radio, utility communications systems, and refineries.^[3][4]

[edit] Result

While the program succeeded in creating basic performance standards and feature sets, it failed to create a signaling standard. The result: three companies built APCO Project 16 compliant systems but radios from each manufacturer were incompatible with one another. In California, for example, University of California, Riverside bought a Motorola system and the County of Riverside purchased a General Electric. In order to communicate, some patch or other custom-built link would have to be installed. Intercommunication was doable but not seamless.

The original Project 16 report dealt with basic deployment issues surrounding use of the then-new 800 MHz band. These included radio signal propagation characteristics of the newly-allocated band. The report addressed concerns about health effects from 800 MHz transmitters but did not reveal definitive findings. It defined proposed methods for frequency reuse, coordination, and interference reduction. ^[5]

A follow-on project titled APCO Project 16A was funded by a second LEAA grant. It addressed a proposal to open the 800 MHz band. This program defined technical details such as "channel access time," "system growth capability," and "reliability." ^[6]

A third LEAA grant funded "Draft System Implementation Plans for Participating Communities," which addressed how such a system might be implemented in four US cities.^[7]

[edit] Notes

1. ^ "4.2.1 APCO Project 16," Arizona Phase II Final Report: Statewide Radio Interoperability Needs Assessment, (Phoenix, Arizona: Macro Corporation and The State of Arizona, 2004), pp. 42-43.
2. ^ "Review of the APCO 'Project 16' Report," The California Highway Patrol Communications Technology Research Project on 800 MHz, 80-C477, (Sacramento, California: Department of General Services, Communications Technology Division, 1982,) pp. I-3 - I-9.
3. ^ "4.2.1 APCO Project 16," Arizona Phase II Final Report: Statewide Radio Interoperability Needs Assessment, (Phoenix, Arizona: Macro Corporation and The State of Arizona, 2004), pp. 42-43.
4. ^ "Review of the APCO 'Project 16' Report," The California Highway Patrol Communications Technology Research Project on 800 MHz, 80-C477, (Sacramento, California: Department of General Services, Communications Technology Division, 1982,) pp. I-3 - I-9.
5. ^ "Review of the APCO 'Project 16' Report," The California Highway Patrol Communications Technology Research Project on 800 MHz, 80-C477, (Sacramento, California: Department of General Services, Communications Technology Division, 1982,) pp. I-3 - I-9.
6. ^ "Review of the APCO 'Project 16A' Report," The California Highway Patrol Communications Technology Research Project on 800 MHz, 80-C477, (Sacramento, California: Department of General Services, Communications Technology Division, 1982,) pp. I-8 - I-9. The report said 900 MHz but this is believed to be a typographical error. The Department of General Services report should read, 800 MHz instead of 900 MHz.
7. ^ "Review of the APCO 'Project 16B' Report," The California Highway Patrol Communications Technology Research Project on 800 MHz, 80-C477, (Sacramento, California: Department of General Services, Communications Technology Division, 1982,) pp. I-9.

[edit] See also

• National Institute of Justice
• APCO Project 25