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= Confirming the network is optimized for voice<br/> =
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== Optimizing the Network for Voice Traffic: ==
  
Voice over IP is already widespread in enterprise networks and is growing in public switched voice networks as carriers migrate from TDM to VoIP.
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==== Introduction ====
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As Voice over IP (VoIP) technology increasingly permeates enterprise and public switched voice networks, the importance of a network optimized for voice cannot be overstated. While non-voice networks may appear to function adequately, latent issues often come to light only when the more demanding requirements of voice packet transmission are introduced.
  
A network that appears to function adequately without voice can give the impression that there are no underlying network problems. Users become accustomed to using what they have and assume that the network is functioning well. In reality there can be issues that are unknown until packet transmission of voice is introduced. For instance if an email arrives a few seconds late it is not obvious to users that there is a delay in the network. However a few seconds in a voice transmission is unacceptable. It stands to reason that the cause of the delay in email may go unresolved without raising any noticeable performance lag to users. However, such a condition must be resolved in a voice network.
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==== Understanding Network Performance for Voice ====
  
Quality of Service (QOS) is a mechanism to assure that voice packets have priority over other data packets.
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* Latency and Packet Transmission: Unlike data packets, voice packets are extremely sensitive to delays. A delay that is imperceptible in email transmission can be detrimental in voice communication.
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* Quality of Service (QoS): Implementing QoS is critical. It prioritizes voice packets over other types of data, ensuring smooth and uninterrupted voice communication.
  
There are basic steps that should be taken to optimize a network for voice traffic.
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==== Steps to Optimize a Network for Voice ====
  
#The Switches should be managed switches that support QOS. Recommendations:
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# Managed Switches with QoS: Employ managed switches that support Quality of Service.
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#* QoS Capable Switches: Ensure switches are configured for optimal QoS.
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#* Power Over Ethernet (PoE) Switches: PoE switches are recommended for VoIP applications.
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#* Uninterruptible Power Supply (UPS): A UPS ensures continuity during power outages, maintaining telephone connectivity.
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# Network Infrastructure: The network should be at minimum Certified CAT 5e.
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#* If the current infrastructure doesn't meet this standard, prepare to upgrade the wiring and equipment.
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#* Include all costs, expenses, and labor in your quote.
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# Network Analysis: Conduct a thorough network analysis to identify potential issues. Consider using services like MicroConvergent for this task.
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# Collaboration with IT Management: Foster a good relationship with the IT management team, especially if you are not managing the data network.
  
*QOS capable data switches (QOS settings are configured in the Smart Switch)
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==== Testing and Certification ====
*POE data switches are highly recommended in VoIP applications
 
*UPS is highly recommended<br/>Note: backing up the POE extends power to telephones during a power outage.
 
  
#The entire network infrastructure should be at minimum Certified CAT 5e
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* Ensure the network is certified for voice traffic. This includes:
#If item 2 is not met upon inspection, you should consider to be prepared to quote for wiring and equipment to get the infrastructure of the network to this status.
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** Certified Category 5 cabling.
#Make certain that your quote covers your costs and expenses and labor. It is always best to do this before any new IP PBX is placed on the network so that you can be confident of the network and its ability to carry voice traffic.
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** Smart Data Switches with configured QoS.
#Consider a network analysis to analyze the Network for possible pitfalls. MicroConvergent is a good option.
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** PoE implementation.
#If you are not the manager of this DATA network then you should develop a good relationship with the IT management team for this network as their assistance will prove invaluable to you.
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* For remote phone applications, ensure the router supports multiple NAT sessions. Refer to IPitomy's router compatibility guide.
#After the network is certified for voice, you should test it.
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* Verify adequate bandwidth for remote users and SIP Trunks. A standard guideline is 200Kb of symmetrical bandwidth for each concurrent voice call (G.711 CODEC).
  
*Certified Category 5 cabling
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==== Bandwidth Considerations ====
*Smart Data Switches with QOS enabled and configured
 
  
*Recommended use of POE
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* Most data connections are asymmetrical. Ensure the VoIP connection aligns with the lesser bandwidth rate.
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* Account for fluctuations in connection speeds throughout the day.
  
*For applications for Remote Phones the Router must be capable of supporting multiple NAT sessions (see IPitomy’s list of known performing routers)<br/>[http://www.ipitomy.com/webrelease/IPitomy/Router%20Compatibility%20Guide.pdf http://www.ipitomy.com/webrelease/IPitomy/Router%20Compatibility%20Guide.pdf]
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==== Equipment and Collaboration ====
  
#It is also recommended that you certify the bandwidth is appropriate for what is required for remote users and SIP Trunks. Technically using the standard G.711 CODEC each voice conversation uses 64kbs send 64kbs receive. With SIP overhead this is increased to approximately 80kbs. To simplify calculations we recommend using a round number of 200Kb (kilo bits) of symmetrical bandwidth for each concurrent voice call. (100Kb Send/100Kb Receive)<ol style="list-style-type:lower-alpha;">
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* Always recommend appropriate equipment to avoid issues with outdated networks.
<li>Most data connections are asymmetrical – meaning that there is a difference in speed upload versus download. Usually expressed as 10Dn/5Up… the VoIP connection can be no greater than the lesser bandwidth rate.</li>
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* If the data network is managed by another team, provide a checklist and a proof of assurance document for them to sign off on. This verifies that your voice network requirements are being met.
<li>Keep in mind that some connections fluctuate at times during the day and your connection will only ever be as good as the weakest link.<br/></li>
 
</ol><li>Always recommend proper equipment for the job to avoid the pitfalls and traps of old existing Networks with aging performance issues.<br/></li>
 
<li>If the DATA Network is managed by another team you should provide them with a checklist and a proof of assurance document that they may sign off on which provides you with verification that your requirements for the Voice network are in fact being met. Any changes to meet the requirements must be completed before the day of installation without incurring additional labors costs.<br/><ol style="list-style-type:lower-alpha;">
 
<li>Checklist:</li>
 
</ol></li>
 
</ol>
 
  
*IP Address of the IP PBX is identified and verified available (Ping IP PBX IP Address to assure that no device is using the address.)
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==== Checklist for Network Readiness ====
*Establish IP Address range for DHCP use
 
*Disclose any Static IP Addresses currently in use.
 
*POE capable, QOS capable Switch(es)
 
*For applications with Remote Phones - Router capable of multiple NAT sessions (use).
 
**Ports in router forwarded to PBX for remote phones<br/>(5060, 10,000 – 20,000)
 
*Ports in router forwarded to the PBX for remote maintenance<br/>(Port 80)
 
*Ports in router forwarded to the PBX for Branch Office use<br/>(Port 4569)
 
*Ports in router forwarded to the PBX for Factory support access<br/>(Port 22)
 
  
The prior analysis provided in the outline above will best assure that you have a successful and prosperous IPitomy install. It also outlines a means of successful integration and a continuing good working relationship with existing IT personnel.
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* Verify the IP address of the IP PBX.
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* Establish the IP address range for DHCP use.
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* Disclose any static IP addresses in use.
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* Ensure switches are PoE capable and QoS enabled.
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* For remote phones, confirm the router's capability for multiple NAT sessions.
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* Set up necessary port forwarding to the PBX (ports 5060, 10000-20000 for remote phones, port 80 for remote maintenance, port 4569 for branch office use, and port 22 for factory support access).
  
Questions:
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==== Conclusion ====
 
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By following the guidelines and checklist provided, you can ensure a successful IPitomy install and foster a positive, ongoing relationship with existing IT personnel. This comprehensive approach is key to integrating VoIP into your network effectively and maintaining high performance standards.
#What is the basic network requirement to optimize a network for VoIP?
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[[Category:Training]]
#What type of data switch should be used in a voice network?
 
#What is the approximate bandwidth requirement for a G.711 coded voice call?
 
#What is the primary advantage of using POE?
 
#What is the network component where QOS is setup?
 

Latest revision as of 17:33, 13 November 2023

Optimizing the Network for Voice Traffic:

Introduction

As Voice over IP (VoIP) technology increasingly permeates enterprise and public switched voice networks, the importance of a network optimized for voice cannot be overstated. While non-voice networks may appear to function adequately, latent issues often come to light only when the more demanding requirements of voice packet transmission are introduced.

Understanding Network Performance for Voice

  • Latency and Packet Transmission: Unlike data packets, voice packets are extremely sensitive to delays. A delay that is imperceptible in email transmission can be detrimental in voice communication.
  • Quality of Service (QoS): Implementing QoS is critical. It prioritizes voice packets over other types of data, ensuring smooth and uninterrupted voice communication.

Steps to Optimize a Network for Voice

  1. Managed Switches with QoS: Employ managed switches that support Quality of Service.
    • QoS Capable Switches: Ensure switches are configured for optimal QoS.
    • Power Over Ethernet (PoE) Switches: PoE switches are recommended for VoIP applications.
    • Uninterruptible Power Supply (UPS): A UPS ensures continuity during power outages, maintaining telephone connectivity.
  2. Network Infrastructure: The network should be at minimum Certified CAT 5e.
    • If the current infrastructure doesn't meet this standard, prepare to upgrade the wiring and equipment.
    • Include all costs, expenses, and labor in your quote.
  3. Network Analysis: Conduct a thorough network analysis to identify potential issues. Consider using services like MicroConvergent for this task.
  4. Collaboration with IT Management: Foster a good relationship with the IT management team, especially if you are not managing the data network.

Testing and Certification

  • Ensure the network is certified for voice traffic. This includes:
    • Certified Category 5 cabling.
    • Smart Data Switches with configured QoS.
    • PoE implementation.
  • For remote phone applications, ensure the router supports multiple NAT sessions. Refer to IPitomy's router compatibility guide.
  • Verify adequate bandwidth for remote users and SIP Trunks. A standard guideline is 200Kb of symmetrical bandwidth for each concurrent voice call (G.711 CODEC).

Bandwidth Considerations

  • Most data connections are asymmetrical. Ensure the VoIP connection aligns with the lesser bandwidth rate.
  • Account for fluctuations in connection speeds throughout the day.

Equipment and Collaboration

  • Always recommend appropriate equipment to avoid issues with outdated networks.
  • If the data network is managed by another team, provide a checklist and a proof of assurance document for them to sign off on. This verifies that your voice network requirements are being met.

Checklist for Network Readiness

  • Verify the IP address of the IP PBX.
  • Establish the IP address range for DHCP use.
  • Disclose any static IP addresses in use.
  • Ensure switches are PoE capable and QoS enabled.
  • For remote phones, confirm the router's capability for multiple NAT sessions.
  • Set up necessary port forwarding to the PBX (ports 5060, 10000-20000 for remote phones, port 80 for remote maintenance, port 4569 for branch office use, and port 22 for factory support access).

Conclusion

By following the guidelines and checklist provided, you can ensure a successful IPitomy install and foster a positive, ongoing relationship with existing IT personnel. This comprehensive approach is key to integrating VoIP into your network effectively and maintaining high performance standards.