TIA TSB-88.5

Description / Abstract:

The TSB-88 Series

The TSB-88 series of bulletins gives guidance on the following areas:

• Establishment of standardized methodology for modeling and simulating either narrowband/bandwidth efficient technologies or broadband technologies;

• Establishment of a standardized methodology for empirically confirming the performance of either narrowband/bandwidth efficient systems or broadband systems;

• Aggregating the modeling, simulation and empirical performance verification reports into a unified "Spectrum Management Tool Kit" which can be employed by frequency coordinators, systems engineers, software developers, and system operators;

• Recommended datasets that are available for improved results from modeling and simulation; and

• Providing current information for new and emerging bands.

The purpose of these documents is to define and advance a scientifically sound standardized methodology for addressing technology compatibility. This document provides formal structure and quantitative technical parameters from which automated design and spectrum management tools can be developed based on proposed configurations that can temporarily exist during a migration process or for longer term solutions for systems that have different technologies.

As wireless communications systems evolve, the complexity in determining compatibility between different types of modulation, different operational geographic areas, and application usage increases.

Spectrum managers, system designers and system maintainers have a common interest in utilizing the most accurate and repeatable modeling and simulation capabilities to determine likely wireless communication system performance. A standardized approach and methodology is needed for the modeling and simulation of wireless communications systems performance, considering both analog and digital practices in all frequency bands of interest.

In addition, after deployment, validation or acceptance testing is often an issue subject to much debate and uncertainty. Long after a system is in place and optimized, future interference dispute resolution necessitates application of anindustry accepted and standardized methodology for assessing system performance and interference.

These documents contain recommendations for both public safety and nonpublic safety performance that ought to be used in the modeling and simulation of these systems. These documents also satisfy the desire for a standardized empirical measurement methodology that is useful for routine proof-ofperformance and acceptance testing and in dispute resolution of interference cases that are likely to emerge in the future.

To provide this utility necessitates that specific manufacturers define various performance criteria for the different capabilities and their specific implementations. Furthermore, sufficient reference information is provided so that software applications can be developed and employed to determine if the desired system performance has been realized.

Wireless system performance can be modeled and simulated with the effects of single or multiple potential distortion sources taken into. These sources include:

• Performance parameters

• Co-channel users

• Off-channel users

• Internal noise sources

• External noise sources

• Equipment non-linearity

• Transmission path geometry and transmission loss modeling

• Delay spread and differential signal phase

• Over the air and network protocols

• Performance verification

Predictions of system performance can then be evaluated based on the desired RF carrier versus the combined effects of single or multiple performance degrading sources. Performance is then based on a faded environment to more accurately simulate actual usage and considers both signal magnitude and phase attributes.

It is anticipated that this series of documents will serve as the standard reference for developers and suppliers of land mobile communications system design, modeling, simulation and spectrum management software and automated tools.