VOIP$501061$ - traduction vers néerlandais
Diclib.com
Dictionnaire ChatGPT
Entrez un mot ou une phrase dans n'importe quelle langue 👆
Langue:

Traduction et analyse de mots par intelligence artificielle ChatGPT

Sur cette page, vous pouvez obtenir une analyse détaillée d'un mot ou d'une phrase, réalisée à l'aide de la meilleure technologie d'intelligence artificielle à ce jour:

  • comment le mot est utilisé
  • fréquence d'utilisation
  • il est utilisé plus souvent dans le discours oral ou écrit
  • options de traduction de mots
  • exemples d'utilisation (plusieurs phrases avec traduction)
  • étymologie

VOIP$501061$ - traduction vers néerlandais

EXTENSION OF A VOICE OVER IP NETWORK
Mobile voip; Mobile VOIP; Voip mobile

VOIP      
protocol voor overdracht van klank op digitale wijze op internet (zonder gebruikmaking van geregelde telefoon lijnen)
Voice Over Internet Protocol         
  • Asterisk]]-based PBX for small business
  • Example of residential network including VoIP
COMMONLY REFERS TO METHODS OF DELIVERING VOICE COMMUNICATIONS AND MULTIMEDIA OVER IP NETWORKS
VoIP; IP telephony; Internet telephony; Internet phone; VOIP; IP Telephony; IPTelephony; Voip; Internet telephone; Voice over ip; Broadband telephony; Broadband Telephony; Digital Phone; Voice-over-IP; VolP; Voice over internet protocol; Broadband Phone; TeleCable Services; Internet Telephony; IP voice; Internet phone service; Internet telephone service; Internet-based telephony; Internet Phone; Net phone; Voice on IP; Vodsl; Real time audio using VoIP; IP telephony signaling protocol; VoIP carrier; Web phone; Web phoning; VoDSL; Voice Over IP industry; Voice over IP industry; Broadband phone; Broadband phone service; Broadband telephone; Broadband telephone provider; Broadband phone company; VoIP Terminology; VOIP Call; Voice over Internet protocol; Voice Over IP; Web-to-phone; Retail VoIP; Telephony portal; Internet Protocol telephone; Backdoor dialing; IPTel; VoIp; VOip; VOIp; VOiP; User:QuackCD/VoIP; Managed VoIP Service; Voip hosting; SVOIP; VoPI; Voiceover IP; IP telephone; Voice over Internet Protocol; Internet call; VOSIP; Business VOIP Telephones & Office Phones; Telephony Portal; Voip Call; VoiP; Web call; Web calling; VoIP telephony; Packetized voice; Security vulnerabilities in VoIP systems; Internet telephones; Packet voice
protokol die klank op digitale wijze overbrengt op het internet (zonder gebruikmaking van gewone telefoonlijnen)
telephone number         
  • A [[business card]] from [[Richard Nixon]]'s first Congressional campaign in 1946; his telephone number can be seen as "Whittier 42635"
  • Telephone numbers for sale in [[Hong Kong]].
  • 2008 photo shows a hairdressing shop in [[Toronto]] with an exterior sign showing the shop's telephone number in the old two-letters plus five-digits format.
  • Modern [[telephone keypad]] contains "*" and "#"
  • Face of a 1939 rotary dial showing a 2L-4N style alphanumeric telephone number LA-2697.
UNIQUE SEQUENCE OF DIGITS ASSIGNED TO A TELEPHONE SUBSCRIPTION
Telephone numbers; Phone number; Phone numbers; Directory number; Cellphone number; Phone Number; Tel. Nos.; Mobile device number; Mobile telephone number; Mobile directory number; Mobile dialable number; Phone Numbers
telefoonnummer

Définition

VOIP
Voice Over IP (Reference: IP, Internet, CTI)

Wikipédia

Mobile VoIP

Mobile VoIP or simply mVoIP is an extension of mobility to a voice over IP network. Two types of communication are generally supported: cordless telephones using DECT or PCS protocols for short range or campus communications where all base stations are linked into the same LAN, and wider area communications using 3G or 4G protocols.

There are several methodologies that allow a mobile handset to be integrated into a VoIP network. One implementation turns the mobile device into a standard SIP client, which then uses a data network to send and receive SIP messaging, and to send and receive RTP for the voice path. This methodology of turning a mobile handset into a standard SIP client requires that the mobile handset support, at minimum, high speed IP communications. In this application, standard VoIP protocols (typically SIP) are used over any broadband IP-capable wireless network connection such as EVDO rev A (which is symmetrical high speed — both high speed up and down), HSPA, Wi-Fi or WiMAX.

Another implementation of mobile integration uses a soft-switch like gateway to bridge SIP and RTP into the mobile network's SS7 infrastructure. In this implementation, the mobile handset continues to operate as it always has (as a GSM or CDMA based device), but now it can be controlled by a SIP application server which can now provide advanced SIP-based services to it. Several vendors offer this kind of capability today.

Mobile VoIP will require a compromise between economy and mobility. For example, voice over Wi-Fi offers potentially free service but is only available within the coverage area of a single Wi-Fi access point. Cordless protocols offer excellent voice support and even support base station handoff, but require all base stations to communicate on one LAN as the handoff protocol is generally not supported by carriers or most devices.

High speed services from mobile operators using EVDO rev A or HSPA may have better audio quality and capabilities for metropolitan-wide coverage including fast handoffs among mobile base stations, yet may cost more than Wi-Fi-based VoIP services.

As device manufacturers exploited more powerful processors and less costly memory, smartphones became capable of sending and receiving email, browsing the web (albeit at low rates) and allowing a user to watch TV. Mobile VoIP users were predicted to exceed 100 million by 2012 and InStat projects 288 million subscribers by 2013.

The mobile operator industry business model conflicts with the expectations of Internet users that access is free and fast without extra charges for visiting specific sites, however far away they may be hosted. Because of this, most innovations in mobile VoIP will likely come from campus and corporate networks, open source projects like Asterisk, and applications where the benefits are high enough to justify expensive experiments (medical, military, etc.).