Cisco Systems 30 VIP manual Problem Categories, Voice Quality

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Cisco IP Telephony Troubleshooting Guide for Cisco CallManager Release 3.0(1)

Problem Categories

This section addresses some common problem categories that may occur with

Cisco CallManager and related devices. Each problem category provides suggestions for the troubleshooting tools you should use to help isolate the problem. This document provides general categories of potential problems and suggestions about how to troubleshoot those problems. It does not provide an exhaustive list of problems and resolutions. If you encounter a problem that cannot be resolved using the tools and utilities described in this document, consult the

Cisco Technical Assistance Center (TAC) for assistance. Be sure to have available the Cisco CallManager Administration Details, plus the diagnostic information (traces, etc.) you have gathered up to the point of calling the TAC.

Voice Quality

Voice quality issues include lost or distorted audio during phone calls. Common problems can be breaks in the sound which cause the audio to be intermittent (like broken words), or the presence of odd noises that distort the audio, such as echo, or effects that cause spoken words to sound watery or robotic. One-way audio, that is, a conversation between two people where only one person can hear anything, is not actually a voice quality issue, but will be discussed later in this section.

One or more of the following components could cause audio problems:

Gateway

Phone

Network

To properly troubleshoot voice quality issues, you must consider the infrastructure and all the devices for drops and delays.

Lost or Distorted Audio

One of the most common problems encountered is a breaking up of audio (often described as garbled speech, or a loss of syllables within a word or sentence). There are two common causes for this: packet loss and/or jitter. Packet loss means that audio packets do not arrive at their destination because they were dropped or arrived too late to be useful. Jitter is the variation in the arrival times of packets. In the ideal situation, all VoIP packets from one phone to another would arrive exactly at a rate of 1 every 20 ms. Notice that this does not mention how long it takes for a packet to get from point A to point B, simply the variation in the arrival times. There are many sources of variable delay in a real network. Some of these cannot be controlled, and some can. Variable delay cannot be eliminated entirely in a packetized voice network. Digital Signal Processors (DSPs) on phones and other voice-capable devices are designed to buffer some of the audio, in anticipation of variable delay. This “dejittering” is done only when the audio packet has reached its destination and is now ready to be put into a conventional audio stream (to be played out into the user’s ear to be sent to the PSTN via a digital PCM stream). The

Cisco IP Phone 7960 can buffer as much as one second of voice samples. The jitter buffer is adaptive, meaning if a burst of packets is received, the Cisco IP Phone 7960 can play them out in an attempt to control the jitter. The network administrator needs to minimize the variation

© 2000 Cisco Systems, Inc.

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Contents SDI Trace Output Configuring Traces Reorder Tone Through Gateways Gateway Registration Problems Page Purpose Documentation Checklist Channel Calling Search Space CCAPi Acronym/Term Cnf Law mu-lawCisco IOS Cluster Codec ChannelFlow Full duplex 711 729 225 245 323 Half Duplex Hookflash Jitter Law mu-lawPartition 931 Route Filter Route Group Route List Route PatternSilence Suppression Voice Activation Detection Voice Activation Detection Silence Suppression VoIP Translation PatternCisco CallManager Administration Details View Report Microsoft PerformanceMicrosoft Event Viewer SDI Trace Configuring Traces SDL Trace Page SDLTraceDataFlag Value SDLTraceTypeFlag Value DefinitionCall Detail Records CDR and Call Management Records CMR Sniffer TraceSelect Service Service Parameters CDRs Voice Quality Problem CategoriesPage Packet Number Time absolute ms Time delta ms Button Help John Check Your Loads Phone Resets Dropped Calls Page Page Cisco CallManager Feature Issues Locations Conf Bridge Region1 Region2 MTP Resource Problems MTP Dial Plans Dialing DOES-NOT-EXIST Page DialPlanWizardG Clause NamePattern Device Name Device Description Usage Pattern PartitionReorder Tone Through Gateways Slow Server ResponseGateway Registration Problems Module.port CFG Booting Dhcp for dynamic configurationTracyclose mod port tracystart mod port TaskID Cmd show dhcp Gmsg ***TFTP Error File Not Found Gmsg CCM#0 CPEvent = Loadid -- CPState = LoadResponse Gatekeeper ProblemsRegistration Rejects RRJ Cisco IP Phone Initialization Process Sample TopologyPage Skinny Station Registration Process Message Description Station Register Station ResetStation IP Port AcknowledgePage Cisco CallManager Initialization Process Self-Starting Processes Cisco CallManager Registration Process Cisco CallManager KeepAlive Process Cisco CallManager Intra-Cluster Call Flow Traces Cisco Systems, Inc CCMStationD stationOutputStopTone tcpHandle=0x4fbbc30 Cisco Systems, Inc Call Flow Traces Page Cisco Systems, Inc Following debug messages show that the call is in progress Gatekeeper Endpoint Registration Debug Messages and Show Commands on the Cisco IOS GatewayCisco Systems, Inc Page Cisco IOS Gateway with T1/PRI Interface Cisco IOS Gateway with T1/CAS Interface Cisco Systems, Inc Inter-Cluster H.323 Communication Call Flow Traces Failed Call Flow Cisco Systems, Inc Reading Records Writing RecordsRemoving Records Table SchemaFields in a Call Detail Record Known IssuesDeciphering the Time Stamp Origination leg call identifier Global Call IdentifierDate/time of call origination Originator’s node IDCalling party cause Of call termination Isdn location valueIP address for the originator’s media connection Port for the originator’s media connectionIP address to which the call was delivered unsigned integer Destination span or portIP port to which the call was delivered Called party’s partitionCodec type used by the destination on sending side IP address for the destination outgoing media connectionDate/time of connect Date/time of disconnect unsigned integerCisco CallManager node identifier Global Call Identifier for this callCall Identifier Directory number used on this callLost RTP packets during this connection Interarrival jitter during this connectionLatency experienced during this connection Normal Calls Cisco IP Phone-to-Cisco IP Phone Call Management Records Logged By Call Type Codec Cause Codes Description Codec Types Compression / Payload typesNumber changed Alarms Calling Cisco Technical Assistance Center TAC Index Debug messages and show commands Page Topology

30 VIP specifications

Cisco Systems has been a leading company in networking technology, and its suite of products is continually evolving to meet the demands of modern digital infrastructure. One of the latest introductions is the Cisco Systems 30 VIP, a highly advanced solution designed to enhance network performance and security for businesses of all sizes.

The Cisco Systems 30 VIP stands as a cornerstone for next-generation networking features, providing organizations with significant advantages in speed, reliability, and scalability. At the heart of the 30 VIP are key technologies such as advanced routing protocols and enhanced security measures that ensure seamless data transfer across multiple devices.

Main features of the Cisco Systems 30 VIP include its high throughput capabilities, which support accelerated data processing and lower latency. This is crucial for businesses that rely on real-time data exchange and cloud applications. Additionally, the device incorporates Multi-Protocol Label Switching (MPLS) technology, which optimizes data flow between networks and significantly enhances overall performance.

Another notable characteristic of the 30 VIP is its integrated security features, including advanced threat detection and prevention systems. These are designed to protect sensitive business data from cyber threats, ensuring operational continuity and compliance with industry regulations. The Cisco 30 VIP also supports secure access protocols, allowing for secure remote connections, which is increasingly vital in today’s hybrid work environment.

The adaptability of the Cisco Systems 30 VIP is another of its standout aspects. It offers compatibility with existing Cisco infrastructure, making it easier for businesses to adopt new technologies without overhauling their entire system. This modular approach allows for easy upgrades and integration of future technologies, ensuring long-term viability and investment protection.

Furthermore, the Cisco Systems 30 VIP is powered by intelligent network management software that simplifies monitoring, configuration, and troubleshooting processes. This software enhances network visibility, allowing administrators to identify and address potential issues proactively, thereby reducing downtime and enhancing user experience.

In summary, the Cisco Systems 30 VIP represents a significant advancement in network technology with its high throughput, integrated security features, adaptability, and intelligent management capabilities. These elements combine to provide a robust solution that meets the evolving needs of modern businesses while ensuring secure and efficient operations. As organizations continue to navigate an increasingly complex digital landscape, the Cisco Systems 30 VIP offers a future-proof option designed to facilitate growth and resilience.
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