call-routing - определение. Что такое call-routing
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Что (кто) такое call-routing - определение

Skills-based call routing; Skills based routing; Skill based routing
Найдено результатов: 1209
Routed         
PROCESS OF SELECTING PATHS IN A DATA COMMUNICATIONS NETWORK
ROUTING; Routing information; Routing algorithm; External gateway protocol; Network routing; Network routing method; Routed protocols; Routed Protocols; Routable; Routed; Routing algorithms; Centralized routing
·Impf & ·p.p. of Rout.
routed         
PROCESS OF SELECTING PATHS IN A DATA COMMUNICATIONS NETWORK
ROUTING; Routing information; Routing algorithm; External gateway protocol; Network routing; Network routing method; Routed protocols; Routed Protocols; Routable; Routed; Routing algorithms; Centralized routing
<networking> /root dee/ Route Daemon. A program which runs under 4.2BSD Unix systems and derivatives to propagate routes among machines on a local area network, using the Routing Information Protocol. See also gated. (2002-07-31)
routing         
PROCESS OF SELECTING PATHS IN A DATA COMMUNICATIONS NETWORK
ROUTING; Routing information; Routing algorithm; External gateway protocol; Network routing; Network routing method; Routed protocols; Routed Protocols; Routable; Routed; Routing algorithms; Centralized routing
<tool> /row'ting/ Using a kind of rotating cutting tool called a router, pronounced /row't*/. In the USA a router, pronounced /row't*/, is also a network device that performs "routing". In the UK, the network device is pronounced /roo't*/ and what it does is spelled "routeing". (2002-07-31)
Routing         
PROCESS OF SELECTING PATHS IN A DATA COMMUNICATIONS NETWORK
ROUTING; Routing information; Routing algorithm; External gateway protocol; Network routing; Network routing method; Routed protocols; Routed Protocols; Routable; Routed; Routing algorithms; Centralized routing
Routing is the process of selecting a path for traffic in a network or between or across multiple networks. Broadly, routing is performed in many types of networks, including circuit-switched networks, such as the public switched telephone network (PSTN), and computer networks, such as the Internet.
Routing         
PROCESS OF SELECTING PATHS IN A DATA COMMUNICATIONS NETWORK
ROUTING; Routing information; Routing algorithm; External gateway protocol; Network routing; Network routing method; Routed protocols; Routed Protocols; Routable; Routed; Routing algorithms; Centralized routing
·p.pr. & ·vb.n. of Rout.
Routing (electronic design automation)         
  • A PCB as a design on a computer (left) and realized as a board assembly populated with components (right). The board is double sided, with through-hole plating, green solder resist and a white legend. Both surface mount and through-hole components have been used.
STAGE OF ELECTRONIC CIRCUIT DESIGN
Routing (EDA); Routing (Electronic Design Automation); Wire routing; Autorouter; Auto-router; Autorouting; Auto-routing; Auto routing; Auto router; Ripup router; Rip-up router; Ripup-router; Interactive router; Interactive routing; Push-and-shove router; Push-and-shove routing; Push and shove router; Push and shove routing; Grid-based router; Shape-based router; Grid-based autorouter; Shape-based autorouter; Grid-based auto-router; Shape-based auto-router; Automatic router; Topological PCB router; PCB router; Router (electronic design automation); Router (EDA); Automoving; Shove-aside router; Clean-up router; Gridless router; Grid-less router; Pattern router; Topological router; Topological autorouter; Topological auto-router; Topological PWB router; Automatic topological router; Hightower's router; Hightower router; Mikami-Tahuchi router; Mikami-Tahuchi's router; Mikami router; Mikami's router; Gridless PCB router; Hadlock router; Hadlock's router; Hadlock's minimum detour router; Hadlock minimum detour router; Minimum detour router; Grid routing; Geometric autorouter; Push'n'shove-router; Push'n'shove router; Rip-up- and retry-router; Topological autorouting; Gridless routing; Neuronal router; Neuronal autorouter; Off-grid-routing; Rip-up-and-retry router; PCB routing; Mikami–Tahuchi router; Ripup-and-retry router; Spine and stitch router; Spine & stitch router; Spine-and-stitch routing; Spine-and-stitch router; Routing layer bias; Shape-based routing; River router; River-routing; River routing; Mirror routing; Mirror router; Any-angle routing; Any-angle router; Free-angle routing; Free-angle router; Any angle routing; Any angle router; Free angle routing; Free angle router
In electronic design, wire routing, commonly called simply routing, is a step in the design of printed circuit boards (PCBs) and integrated circuits (ICs). It builds on a preceding step, called placement, which determines the location of each active element of an IC or component on a PCB.
dynamic routing         
<networking> (Or "adaptive routing") Routing that adjusts automatically to network topology or traffic changes. (1997-05-08)
adaptive routing         
Routing table         
DATA TABLE STORED IN A ROUTER OR A NETWORKED COMPUTER; LISTS THE ROUTES (AND SOMETIMES DISTANCES) TO PARTICULAR NETWORK DESTINATIONS
Routing Table; Routing tables; Network route; Host route; Routing Information Base; Routing information base; Route table
In computer networking, a routing table, or routing information base (RIB), is a data table stored in a router or a network host that lists the routes to particular network destinations, and in some cases, metrics (distances) associated with those routes. The routing table contains information about the topology of the network immediately around it.
call sign         
  • Department of Commerce callbook, 1919
  • WWV]], indicating its early location in the U.S. state of [[Maryland]]
UNIQUE DESIGNATION FOR A TRANSMITTING STATION
Television call sign; Call letters; Radio call sign; Call signs; Callsign (radio); Call Letters; Amateur call letters; Call letter; Australian callsigns; W (call sign); Ham prefix; Broadcast call sign; Call Sign; Callsigns; Call-sign; International call sign; International call signs; Call signal; International callsign; Call name (call letters); Callsign
Sequence of letters and numbers, unique to each ship, that identify the ship.

Википедия

Skills-based routing

Skills-based routing (SBR), or skills-based call routing, is a call-assignment strategy used in call centres to assign incoming calls to the most suitable agent, instead of simply choosing the next available agent. It is an enhancement to the automatic call distributor (ACD) systems found in most call centres. The need for skills-based routing has arisen as call centres have become larger and dealt with a wider variety of call types.

In the past, agents answering calls were generally able to be assigned to only one queue taking one type of call. This meant that agents who could deal with a range of call types had to be manually reassigned to different queue at different times of the day to make the best use of their skills, or face being exposed to a wide variety of calls for which they were not trained. With skills-based routing, the skills needed for a particular call are often assessed by the dialled telephone number and the calling number or caller's identity, as well as choices made in any associated IVR system. Given this assessment, a skills-based routing system then attempts to match the call to a suitably trained agent—the thinking being that an agent with matching skills will be able to provide a better service than one who does not.

As a consequence, the separate large queues that were characteristic of the ACD-driven call centre have disappeared. Instead, each caller seems to have their own waiting area that they may share with only one or two others. Instead of being served in the order of their arrival, calls are served as agents with appropriate skills become available.

Manufacturers claim that this technology improves customer service, shortens call-handling time, makes training shorter and easier, and thus increases agent utilisation, productivity, and, hence, revenue. Skills-based routing has thus become a major selling point, over the simpler ACD that it replaces.

However, independent analysts and consultants argue that the extra complexity of a skills-based routing system might not return the claimed benefits. They outline the difficulty of predetermining the needed skills and suggest that a poorly implemented skills-based routing system might result in poor service, because the wrong measures of service quality are being used.

Theoretical work on skills-based routing system tends to be more limited, with researchers trying to identify suitable queueing theory and operations research models to represent the problems that are raised by skills-based routing systems. Some consider it a fruitful area of research. Others claim that the traditional queueing theory formula, such as Erlang-C, are no longer relevant for determining staff schedules, because they are inaccurate. They also imply that theoretical approaches will not be accurate, because of the complexity involved—arguing that simulation needs to be used instead. Although these claims need to be considered carefully, as it is argued also that the inaccuracies result from failing to understand the assumptions of the Erlang-C approach, instead of actual inaccuracy with the theory.