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Links

White Papers

Statement of Requirements (SoR) for public safety communications and interoperability

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Statement of Requirements

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The Statement of Requirements (SoR) for public safety communications and interoperability provides information on base level requirements for a system of interoperable public safety communications across all federal, state, local, and tribal \"first responder\" communications systems.

NATIONAL REGIONAL PLAN GUIDELINES FOR 4.9 GHz

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NATIONAL REGIONAL PLAN GUIDELINES
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An outline for regional plans utilizing public safety 4940-4990 MHz
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Provided by the National Public Safety Telecommunications Council May 21, 2004
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http://www.npstc.org/

Mobile Mesh Networking Applications to Homeland Security

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Mobile Mesh Networking Applications to Homeland Security

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PacketHop’s technology allows wireless devices to communicate directly by forming an instant mobile mesh network with peer-to-peer connectivity. PacketHop’s mobile mesh networks support several broadband applications such as video, situation awareness, web access, and image transfer using commercial wireless LAN radios. Additional applications include rapid downloads of maps, interior building layouts, multimedia incident reports, medical information, patient’s video, or images/fingerprints from any mobile site.

alvarion Presentation - Leveraging 4.9 GHz Spectrum

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Alvarion 08/04 Presentation – Leveraging 4.9 GHz Spectrum

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4.9 GHz Technology Roadmap

Mesh-Enabled Solutions for Law Enforcement Agencies

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Mesh-Enabled Solutions for Law Enforcement Agencies
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Today’s Public Safety vehicles have become mobile offices. Built-in mobile data terminals (MDTs) are used to access, download and transmit information to assist officers and command staff in their daily tasks. However, today’s low speed data networks are limited to text-only and other low bandwidth applications. Every day, Law Enforcement officials are disadvantaged by not having access to applications like streaming video, multimedia e-mail and content-rich databases. These innovative tools of the trade would allow them to more effectively carry out their duties. The fact is that these applications are available today, but the bandwidth available from CDPD and “next generation cellular” data services needed to support them is not.

White Paper: Coexistence of MEA and 802.11b Networks.

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White Paper: Coexistence of MEA and 802.11b Networks. MORE INFO

Wireless LAN in Public Safety

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Wireless LAN in Public Safety 802.11b White Paper

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Transforming the Way Public Safety Agencies Transfer Information

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The convergence of electronic wireless devices is giving birth to a whole new generation of wireless innovations that can transform the way public safety agencies transfer information. Wireless LAN (WLAN) or IEEE 802.11b technology is one of the more prominent of these new generation innovations.

Best Practices White Paper: Transportation Management and Public Safety

The concept behind the Capital Wireless Integrated Network (CapWIN) is to develop one\n"); document.write("of the first \"virtual\" joint systems in which transportation and public safety can coordinate\n"); document.write("activities via a wireless network. To support this effort, this white paper documents and\n"); document.write("synthesizes national resources and experiences in transportation and public safety\n"); document.write("integration. The following are resources and experiences of significance to CapWIN’s\n"); document.write("implementation:

Wi-Fi Telephony

Wi-Fi Telephony\n"); document.write("Wireless Voice over IP Presents New Opportunities, Challenges\n"); document.write("\n"); document.write("The incredible growth of two leading technologies,\n"); document.write("wireless LAN and voice over IP, has come together\n"); document.write("to provide an exciting new application, Wi-Fi\n"); document.write("Telephony.

The ABC’s of 2.4 and 5 GHz Wireless LANs

$\"Xilinx$ The enterprise, SOHOs, and homes are demanding mobility and portability with high-bandwidth data, voice, and video access. This has led to the introduction of wireless LAN technologies, which attempt to provide exactly that. In the 2.4 GHz frequency band, IEEE 802.11b is “the” wireless LAN solution in the market. However the 5 GHz frequency has two possible contending technologies — IEEE 802.11a and HiperLAN2. This white paper explains the state of affairs in the wireless LAN market, the underlying technology behind the different types of wireless LANs, the over-utilized 2.4 GHz spectrum, the migration to 5 GHz band, which technology will succeed, and how Xilinx Spartan-II FPGAs are ideal for this market place.

CDMA2000 & Wi-Fi: Making a Business Case for Interoperability

The data capabilities of Wi-Fi and hot spot services are often compared to those of CDMA2000. The two technologies will coexist successfully, serving different purposes. CDMA2000 is ideally suited for mobile applications and road warriors while Wi-Fi is well suited for private networks such as enterprises, campuses and homes. Wi-Fi could augment CDMA2000 systems in high traffic areas but it is not a substitute for high-speed wide area networks (WAN) technologies such as CDMA2000. This paper discusses the unique value proposition of CDMA2000 and the role Wi-Fi could play in a CDMA2000 network.

Best Practices for Securing Wireless & Mobile Systems

$\"XcelleNet,$ Where else can you hear the top Gartner expert on mobile and remote security for free? XcelleNet is proud to sponsor this 90 minute Web Seminar covering the best practices in securing frontline projects.

Wi-Fi, Health Care, and HIPAA: WLAN Management in the Modern Hospital

Wireless networking has quickly become a critical aspect of daily life in the hospital IT environment. With the maturation of the 802.11 standards (collectively known as Wi-Fi), hospital staff can remain connected to their critical systems regardless of their location in a facility. Additionally, a new breed of mobile applications has evolved that provide caregivers and administrators with on-demand access to the information and systems they need to better serve their patients. This has led to an increase both in the accuracy and efficiency of hospital operations, which has in turn led to patients that are more satisfied and better served.

Cisco - Public Safety Wireless Solutions Guide

$\"\"$ Now many agencies are enhancing and complementing there systems with wireless LANs based on international standards know as IEEE 802.11, making it possible to store and retrieve data at far greater speeds. In doing so, they've not only increased the performance and availability of existing text-based applications, but also opened the door to entirely new ones, such as digital imaging and streaming video. and they've saved maoney in the process, avoiding the cost of monthly service charges and reducing their reliance on wireless service providers.

Cisco - Public Safety Wireless Solutions Guide

$\"\"$ Now many agencies are enhancing and complementing there systems with wireless LANs based on international standards know as IEEE 802.11, making it possible to store and retrieve data at far greater speeds. In doing so, they've not only increased the performance and availability of existing text-based applications, but also opened the door to entirely new ones, such as digital imaging and streaming video. and they've saved maoney in the process, avoiding the cost of monthly service charges and reducing their reliance on wireless service providers.

The North American DSRC standards development

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The North American DSRC standards development is focused on the new spectrum available at 5.9 GHz. This new spectrum allows the US, Canadian, and Mexican ITS programs to evolve to a new generation of rf communications between vehicles and the roadside, and between vehicles, that enables a whole new class of communications and a new class of applications to support future transportation systems and needs.

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Download the DSRC summary presentation: DSRC Summary.ppt (.zip file)

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$\"\"$ SafeTLink is a point-to-point microwave radio system capable of transmitting Ethernet and T1 digital data. The system operates in the 4.9 GHz Public Safety frequency band. Configurable RF channel width and bandwidth allocation allow the system to be custom tailored to fit available spectrum and data transmission requirements. Configurations are easily changed via lap-top computer to match changing circumstances.

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SafeTLink has completed testing for FCC type certification. The 1, 2, and 4 X T1 SafeTLink operates in the 4940 to 4990 MHz US Public Safety band, in 1, 2 or 5 MHz wide channel pairs. See SafeTLink Type Certification for details.

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FCC Reports on SafeTLink

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T1 Product Datasheet -- Now FCC Type Approved

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SafeTLink 1, 2, or 4 x T1 Data Sheet (.pdf, 111k)

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FT1 + Ethernet Product Datasheet

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SafeTLink Ethernet + T1 Data Sheet (.pdf, 117k)

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Brochures and Application Notes

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4.9 GHz Public Safety Wireless Brochure (.pdf, 58k)

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SafeTLink Link Range Calculations AN-103 (.pdf, 84k)

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