Virtual private network

  • vpn connectivity overview

    a virtual private network (vpn) extends a private network across a public network and enables users to send and receive data across shared or public networks as if their computing devices were directly connected to the private network. applications running on an end system (pc, smartphone etc.) across a vpn may therefore benefit from the functionality, security, and management of the private network. encryption is a common, though not an inherent, part of a vpn connection.[1]

    vpn technology was developed to allow remote users and branch offices to access corporate applications and resources. to ensure security, the private network connection is established using an encrypted layered tunneling protocol, and vpn users use authentication methods, including passwords or certificates, to gain access to the vpn. in other applications, internet users may secure their connections with a vpn to circumvent geo-restrictions and censorship or to connect to proxy servers to protect personal identity and location to stay anonymous on the internet. some websites, however, block access to known vpn technology to prevent the circumvention of their geo-restrictions, and many vpn providers have been developing strategies to get around these roadblocks.

    a vpn is created by establishing a virtual point-to-point connection through the use of dedicated circuits or with tunneling protocols over existing networks. a vpn available from the public internet can provide some of the benefits of a wide area network (wan). from a user perspective, the resources available within the private network can be accessed remotely.[2]

  • types
  • security mechanisms
  • routing
  • user-visible ppvpn services
  • trusted delivery networks
  • types of deployment
  • networking limitations
  • commercial vpns
  • legality
  • see also
  • references
  • further reading

VPN connectivity overview

A virtual private network (VPN) extends a private network across a public network and enables users to send and receive data across shared or public networks as if their computing devices were directly connected to the private network. Applications running on an end system (PC, smartphone etc.) across a VPN may therefore benefit from the functionality, security, and management of the private network. Encryption is a common, though not an inherent, part of a VPN connection.[1]

VPN technology was developed to allow remote users and branch offices to access corporate applications and resources. To ensure security, the private network connection is established using an encrypted layered tunneling protocol, and VPN users use authentication methods, including passwords or certificates, to gain access to the VPN. In other applications, Internet users may secure their connections with a VPN to circumvent geo-restrictions and censorship or to connect to proxy servers to protect personal identity and location to stay anonymous on the Internet. Some websites, however, block access to known VPN technology to prevent the circumvention of their geo-restrictions, and many VPN providers have been developing strategies to get around these roadblocks.

A VPN is created by establishing a virtual point-to-point connection through the use of dedicated circuits or with tunneling protocols over existing networks. A VPN available from the public Internet can provide some of the benefits of a wide area network (WAN). From a user perspective, the resources available within the private network can be accessed remotely.[2]