hypostatic congestion - ορισμός. Τι είναι το hypostatic congestion
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Τι (ποιος) είναι hypostatic congestion - ορισμός

REDUCED QUALITY OF SERVICE DUE TO HIGH TRAFFIC ON A COMPUTER NETWORK
Network congestion avoidance; Congestion collapse; Congestion Control; Congestive collapse; Congestion avoidance; Congestion control; Network constipation; BECN; Network congestion-avoidance; Backward ECN; Congestion control algorithm

BECN         
Backward Explicit Congestion Notification (Reference: ATM)
Network congestion         
Network congestion in data networking and queueing theory is the reduced quality of service that occurs when a network node or link is carrying more data than it can handle. Typical effects include queueing delay, packet loss or the blocking of new connections.
congestion charge         
  • [[Electronic Road Pricing]] gantry in Singapore, the first place in the world to implement an urban cordon area congestion pricing scheme.
  • Automatic detection system at [[Stockholm]]'s first electronic gantry at [[Lilla Essingen]].
  • Severe air pollution in [[Beijing]]. Motor vehicle emissions account for 31% of the city's smog sources.<ref name=Beijing2015/>
  • "[[Costanera Norte]]" Freeway, crossing downtown with 100% free flow, [[Santiago, Chile]]
  • An introductory flowchart describing congestion pricing
  • Orange County]], [[California]].
  • Traffic entering [[San Francisco]] through the [[Golden Gate Bridge]].
  • New York's [[John F. Kennedy International Airport]], one of the world's busiest
  • Entrance to the London Congestion Charge zone. Shown traffic sign and the CCTV used to control vehicles entering the zone's boundary.
  • At Old Street, street markings and a sign (inset) with the white-on-red C alert drivers to the congestion charge, [[London]].
  • A map of [[Greater Manchester]] highlighting area of the rejected congestion charging scheme
  • Entrance to [[Milan Area C]]
  • Ropsten, Stockholm]]. The sign on the right informs the drivers about the different fees, which vary depending on the time of the day.
  • Automatic tolling gantry of Singapore's [[Electronic Road Pricing]] scheme.
  • New York City congestion pricing]] proposal was rejected by the [[New York State Legislature]] in 2008, but later approved in 2019.
  • Variable tolls by time-of the-day were implemented on the [[Sydney Harbour Bridge]] in January 2009.
  • Economic rationale for moving from untolled equilibrium to congestion pricing equilibrium.
  • queue length]].
  • Rome's Traffic Limited Zone (ZTL) entry control point with automatic surveillance.
SYSTEM OF SURCHARGING USERS OF PUBLIC GOODS THAT ARE SUBJECT TO CONGESTION
Congestion charging; Congestion charge; Congestion Charge; C charge; Peak-load pricing; Peak-Load Pricing; Congestion tax; Congestion tolling; Congestion charges; Road congestion pricing; Congestion fee; Variable tolling; Dynamic tolling; Congestion zone
¦ noun Brit. a charge made to drive into an area, typically a city centre, that suffers heavy traffic.

Βικιπαίδεια

Network congestion

Network congestion in data networking and queueing theory is the reduced quality of service that occurs when a network node or link is carrying more data than it can handle. Typical effects include queueing delay, packet loss or the blocking of new connections. A consequence of congestion is that an incremental increase in offered load leads either only to a small increase or even a decrease in network throughput.

Network protocols that use aggressive retransmissions to compensate for packet loss due to congestion can increase congestion, even after the initial load has been reduced to a level that would not normally have induced network congestion. Such networks exhibit two stable states under the same level of load. The stable state with low throughput is known as congestive collapse.

Networks use congestion control and congestion avoidance techniques to try to avoid collapse. These include: exponential backoff in protocols such as CSMA/CA in 802.11 and the similar CSMA/CD in the original Ethernet, window reduction in TCP, and fair queueing in devices such as routers and network switches. Other techniques that address congestion include priority schemes which transmit some packets with higher priority ahead of others and the explicit allocation of network resources to specific flows through the use of admission control.