Spectrum Management

Frame erasures and background noise are two factors that can interact with speech coding to reduce speech intelligibility and thus impair public safety mission-critical voice communications. We conducted two tests of intelligibility in the face of these factors. The tests covered five adaptive multi-rate (AMR) and enhanced voice services (EVS) speech coding modes, each using a bit rate near 13 kb/s. Two EVS Channel Aware (CA) modes were included. Both tests use the Modified Rhyme Test (MRT) protocol and together they comprise over 150,000 trials. The first test used frame erasures targeted at critical consonants for maximum sensitivity and the second used frame erasures generated at random by a two-state Gauss-Markov model. By using these large numbers of MRT trials we found that the CA codec modes offer small but statistically significant speech intelligibility improvements in numerous frame-erasure environments.

Keywords: noise; speech coding; speech quality; modified rhyme test (MRT); packet loss; speech intelligibility; frame erasures; AMR; EVS; channel aware; frame loss

• TR-18-529 

Spectrum is a limited resource upon which the world makes continually increasing demands. It is therefore natural and compelling to study the efficiency with which radio systems use spectrum. Spectrum efficiency studies reveal how future systems can make better use of radio spectrum, and allow spectrum engineers and managers to make better allocation and sharing decisions. This report provides a 53-year historical review of previous domestic and international spectrum efficiency studies. Based on this review, we recommend possible future spectrum efficiency work to extend the state of knowledge in this area.

Keywords: spectrum efficiency; band sharing; spectrum utilization; spectrum sharing; out-of-band (OOB) emissions; spurious emissions; frequency bandwidth; spectrum efficiency metrics

• TR-18-530 

This report describes emission spectrum and time domain measurements of a contraband wireless device micro-jammer that was operated temporarily in four Commercial Mobile Radio Service (CMRS) bands at a Federal Correctional Institution (FCI) at Cumberland, Maryland. The four jammed CMRS bands were between 730 MHz and 2.155 GHz. The micro-jammer targeted CMRS service indoors, in a single medium-security prison cell. Spectrum measurements of the jammer emissions were performed at two places inside the targeted prison cell and at two non-targeted nearby locations outdoors. Jammer emission measurements were performed at each location with multiple measurement bandwidths and detectors across a frequency range of 300 MHz to 4.34 GHz. Measurements at each location were performed twice, with the jammer device on versus off, so as to show the relative power levels of the jamming signal versus the ambient CMRS signals at each location. Aggregate emissions from multiple micro-jammer devices such as would be required to cover an entire prison facility were not measured. Jammer emissions are presented in units of power per unit bandwidth in measurement system circuitry; a table for conversion of those data to units of incident field strength in space is provided.

Keywords: electromagnetic compatibility (EMC); harmful interference; aggregate emissions; cellular communications jamming; denial-of-service jamming; emission bandwidth; radio jamming; in-band emissions; commercial mobile radio service (CMRS) jamming; communications jamming; micro-jammer; radiation hazard (RADHAZ); wireless device jamming

• TR-18-533