Glossary
About
This FreeSWITCH glossary is designed to demystify key technical terms related to telephony and specifically to FreeSWITCH. The terms can sometimes be confusing, and trip up understanding; hopefully this glossary will help.
Covered terms range from basic telephony elements like call legs and channels to more complex technologies such as CODECs and VoIP (Voice over IP). Understanding these concepts is essential to deepen understanding of telephony technologies and utilize FreeSWITCH more effectively.
Table of Glossary Terms
- 1 Call switching
- 2 Call leg
- 3 Channel
- 4 CODEC
- 5 Dialplan
- 6 DTMF
- 6.1 Resources
- 7 Endpoint
- 8 Event socket
- 9 Gateways
- 10 Local loop
- 10.1 Resources
- 11 Parking a call
- 12 PBX
- 13 PRI
- 13.1 Basic Rate Interface
- 13.2 Primary Rate Interface
- 14 PSTN
- 15 SIP Profiles
- 16 Softphone
- 17 Softswitch
- 17.1 Classification system
- 17.2 Resources
- 17.3 Image credits
- 18 Telco
- 19 URI scheme
- 20 VoIP
Call switching
See Wikipedia entries telephone exchange and telephone switchboard.
Call leg
A call leg is an inbound or outbound connection between the phone switch and an external party.
See Call Legs page.
Channel
In FreeSWITCH, a channel represents a call leg.
See Call Legs page.
CODEC
enCoder / Decoder - software that translates data in/out of some format. Particularly: audio data-length compressors / decompressors.
Dialplan
Set of XML files that parse the call details and decide where to route the call.
DTMF
Dual-Tone Multi-Frequency (DTFM) signaling allows sending tones in voice-frequency bands (in-band). Commonly used over telephone lines, DTMF tones are also commonly called touch tones.
Resources
- https://en.wikipedia.org/wiki/Dual-tone%5Fmulti-frequency%5Fsignaling
- https://www.twilio.com/docs/glossary/what-is-dtmf
- http://genave.com/dtmf/
Endpoint
Telephony protocols such as SIP/H.323 and POTS lines.
Event socket
TODO
Make a page of the same name under Event System, where the all the relations (and differences) between Event Socket Library, Event Handlers, mod_esl (what else is related) is explained (see SO threads 1, 2, 3). That page would also be perfect to have their common features explained in one place. For example, inbound and outbound modes; there are descriptions (of different depth) at mod_event_socket, mod_erlang_event, Event Socket Library, Event Socket Outbound, mod_dptools: event, etc. ("etc.", as in find them). In the end, this section will just point to that page.
Generally refers to a method to subscribe to FreeSWITCH events via the event system through the network.
This implies that one can connect to the same local machine via the network. This is what fs_cli does, when launched on the same machine where the FreeSWITCH instance runs, using the network socket (or TCP/IP socket) 127.0.0.1:8021.
There are built-in ways to do this (Event Socket Library (ESL), Event Handlers), or one could roll their own solution by writing a FreeSWITCH module.
Gateways
From pg. 74 of the FreeSWITCH 1.0.6 book:
The counterpart to having a user register to your FreeSWITCH server is to have your server register as a user on a remote server. This is accomplished using gateways. A gateway is quite simply an outbound registration to another SIP server. Telephone service providers use very large servers to provide SIP trunks to their subscribers. In FreeSWITCH, we can use a gateway to connect to a SIP provider. We can also use a gateway to connect to another SIP server, such as another FreeSWITCH server or any SIP-compliant IP-PBX.
Local loop
The connection between a subscriber and the end office of a telecommunications service provider; also referred to as last mile.
In business telecommunication environments, the local loop is the physical wiring that connects the company's internal switch (such as a PBX) to the nearest access point of the telco service provider being used by the company. This is what allows the company access to the PSTN.
Resources
- https://www.tutorialspoint.com/the-local-loop
- https://www.dialogic.com/glossary/local-loop#:~:text=The%20physical%20wiring%20that%20connects,wiring%20of%20the%20local%20loop.
- https://en.wikipedia.org/wiki/Local%5Floop
- https://searchnetworking.techtarget.com/definition/local-loop
- CCIE Practical Studies, Volume 1
- https://networkengineering.stackexchange.com/questions/50554/what-exactly-is-the-local-loop/50563#50563
Parking a call
PBX
PBX stands for Private Branch Exchange, which is a private telephone network used within a company or organization. The users of the PBX phone system can communicate internally (within their company) and externally (with the outside world), using different communication channels like Voice over IP, ISDN or analog. A PBX also allows you to have more phones than physical phone lines (PTSN) and allows free calls between users. Additionally, it provides features like transfer calls, voicemail, call recording, interactive voice menus (IVRs) and call queues.
Continue reading at https://www.3cx.com/pbx/pbx-phone-system/
See more at
- https://searchunifiedcommunications.techtarget.com/definition/private-branch-exchange
- https://en.wikipedia.org/wiki/Business%5Ftelephone%5Fsystem
PRI
Paraphrasing from https://searchnetworking.techtarget.com/definition/Primary-Rate-Interface:
In the Integrated Services Digital Network (ISDN), there are two levels of service:
- the Basic Rate Interface (BRI),
intended for the home and small enterprise - the Primary Rate Interface (PRI),
for larger users.
Both rates include a number of B-channels and a D-channel.
- B-channels carry data, voice, and other services.
- D-channels carry control and signaling information.
Basic Rate Interface
The Basic Rate Interface consists of
- two 64 Kbps B-channels and
- one 16 Kbps D-channel.
Thus, a Basic Rate Interface user can have up to 128 Kbps service.
Primary Rate Interface
The Primary Rate Interface channels are carried on
- a T-carrier system line (in the U.S., Canada, and Japan) or
- an E-carrier line (in other countries)
and are typically used by medium to large enterprises. The Primary Rate user is hooked up directly to the telephone company central office.
A PRI consists of
- 23 B-channels and
- one 64 Kpbs D-channel
- when using a T1 line
or
- 30 B-channels and
- one D-channel
- when using an E1 line.
Thus, a Primary Rate Interface user can have
- up to 1.544 Mbps service on a T1 line, or
- up to 2.048 Mbps service on an E1 line.
The 23 (or 30) B-channels can be used flexibly and reassigned when necessary to meet special needs such as video conferences. PRI uses the Q.931 protocol over the D-channel.
For more information, see ISDN. To compare ISDN data rates with other technologies, see The speed of....
PSTN
PSTN (public switched telephone network) is the world’s collection of interconnected voice-oriented public telephone networks. PSTN stands for public switched telephone network, or the traditional circuit-switched telephone network. PTSN comprises all the switched telephone networks around the world that are operated by local, national or international carriers. These networks provide the infrastructure and the services for public telecommunication.
Read more at https://searchnetworking.techtarget.com/definition/PSTN
SIP Profiles
From pg. 79 of the FreeSWITCH 1.0.6 book:
In the strictest sense of the word, a SIP profile in FreeSWITCH is a User Agent. In practical In practical terms, this means that each SIP profile "listens" on a particular IP address and port number. The internal profile listens on port 5060, and the external profile listens on port 5080. Not only does the profile listen but it can respond as well. For example, when a phone sends a SIP REGISTER packet to FreeSWITCH (at port 5060), the internal profile "hears" the registration request and acts accordingly. The files in conf/sip_profiles/ are ones which determine how the profiles behave. Many of the parameters in these profiles are to customize how FreeSWITCH handles various SIP traffic scenarios. In most cases the defaults are reasonable and should work. In other cases, though, you may find that because of the peculiarities in various VoIP phones and vendors, you will need to make adjustments. Lastly, do not let the profile names internal and external be a source of confusion. Each profile is simply a user agent that is streamlined for a specific purpose. The internal profile is optimized to handle telephone registrations and calls between registered phones. The external profile is optimized for outbound gateway connections and several NAT traversal scenarios.
For a deeper discussion of user agents and the concept of a back-to-back user agent (B2BUA) see wikipedia article about this.
Softphone
A softphone is a software program for making telephone calls over the Internet using a general purpose computer rather than dedicated hardware. The softphone can be installed on a piece of equipment such as a desktop, mobile device, or other computer and allows the user to place and receive calls without requiring an actual telephone set.
Continue reading at https://en.wikipedia.org/wiki/Softphone
Softswitch
A softswitch (software switch) is a call switching (see above) node in a telecommunications network,
based not on the specialized switching hardware of the traditional telephone exchange,
but implemented in software running on a general-purpose computing platform.
Like its traditional counterparts it connects telephone calls between subscribers or other switching systems across a telecommunication network.
VoIP softswitches are subdivided into numerous classes, in analogy to the traditional functions in the public switched telephone network.
Classification system
Overview
There are five classes of switches, one through five, referring to the size of the area they cover.
- Class 1 are international gateways
- Classes 2 through 4 connect cities, towns, and even states
- Class 5 switches connect to end users
Class 4 softswitches
Class 4 softswitches, analogous with other Class 4 telephone switches, are used for transit VoIP traffic between carriers.
Their main function is to route large volumes of long-distance VoIP calls.
The most important characteristics of Class 4 softswitch are
- protocol support and conversion,
- transcoding,
- calls per second rate,
- average time of one call routing,
- number of concurrent calls.
Class 5 softswitches
Class 5 softswitches are intended to serve subscribers, and connect end user devices.
Class 5 softswitches are characterized by additional services for end-users and corporate clients such as
- IP PBX features,
- call center services,
- calling card platform,
- types of authorization,
- QoS,
- Business Groups,
- and other features similar to other Class 5 telephone switches.[2]
Resources
- https://en.wikipedia.org/wiki/Softswitch
- https://getvoip.com/library/what-is-a-class-5-softswitch/
- https://www.revesoft.com/blog/softswitch/differences-between-class-4-softswitch-and-class-5-softswitch/
Image credits
- https://www.semanticscholar.org/paper/Wi-Fi-Handbook%3A-Building-802.11b-Wireless-Networks-Ohrtman-Roeder/ecf1d2afd536d7ffd04123ab9053ba756c1ca498
- https://present5.com/basic-telephone-subscriber-line-telephone-t-dial-switch/
Telco
A telco, also known as a
- telephone company,
- telephone service provider,[1] or
- telecommunications operator,
is a kind of communications service provider (CSP), more precisely a telecommunications service provider (TSP),
that provides telecommunications services such as telephony and data communications access.
The government agencies are often referred to, primarily in Europe, as PTTs (postal, telegraph and telephone services).[2]
Telephone companies are common carriers, and in the United States are also called local exchange carriers. With the advent of mobile telephony, telephone companies now include wireless carriers, or mobile network operators.[3] Most telephone companies now also function as internet service providers and the distinction between a telephone company and an ISP may disappear completely over time, as the current trend for supplier convergence in the industry continues.[4]
Continue reading at https://en.wikipedia.org/wiki/Telephone%5Fcompany
URI scheme
From the Uniform Resource Identifier wikipedia page:
While most URI schemes were originally designed to be used with a particular protocol, and often have the same name, they are semantically different from protocols. For example, the scheme http is generally used for interacting with web resources using HTTP, but the scheme file has no protocol.
Read more at RFC-3986: Uniform Resource Identifier (URI): Generic Syntax.
VoIP
VoIP (voice over IP) is the transmission of voice and multimedia content over Internet Protocol (IP) networks. VoIP historically referred to using IP to connect private branch exchanges (PBXs), but the term is now used interchangeably with IP telephony.
VoIP is enabled by a group of technologies and methodologies used to deliver voice communications over the internet, enterprise local area networks or wide area networks. VoIP endpoints include dedicated desktop VoIP phones, softphone applications running on PCs and mobile devices, and WebRTC-enabled browsers.
Read more at https://searchunifiedcommunications.techtarget.com/definition/VoIP