Internet Protocol. (IP) CSTB is a CSTB which is capable of receiving digital television/video signals encapsulated in IP packets and delivering them to a consumer display and/or external rendering/recording device. If the CSTB base functionality is not cable or satellite and the CSTB meets the definition of an IP CSTB and the CSTB is capable of receiving an IP service protected by conditional access, the base functionality is defined to be IP, regardless of whether the IP reception is considered the “principal functionality” by the Manufacturer or Service Provider.
Internet Protocol. Electronic Mail MSTG Solutions, Inc. encourages the use of electronic mail ("e-mail") in communicating within your organization. However, any general solicitations to prospects by sending unsolicited e-mail messages to e-mail addresses otherwise known as "spamming" or "blasting" is strictly prohibited by MSTG Solutions, Inc. and will subject the Independent Representative to disciplinary action or termination.
Internet Protocol. IP TELEPHONY NETWORK - refers to the transmission path from one Gateway to another Gateway and may include routers, hubs and digital switching units over which IP telephony traffic will be processed. This network will handle traffic from a point within the US to a point in Manila, Philippines. It includes necessary hardware and software to perform the transmissions, however, it explicitly does not include the PTT or PSTN transmissions on either side of the IP Telephony Network.
Internet Protocol. Law means any:
Internet Protocol. Once the network has been established, and the IP numbers have been assigned, data can be transacted over a network with one of several protocols. By far the most prevalent protocol is the Transmission Control Protocol (TCP), which runs on top of the Internet Protocol in what is collectively known as the TCP/IP protocol. The TCP/IP protocol was developed by the Department of Defense to connect different computers from different vendors by a “network of networks,” which has become what is known as the Internet today. The primary purpose of the TCP/IP protocol was to prevent a complete network outage in the case of a nuclear attack, by automatically rerouting data traffic through the functioning part of the network. As such, the TCP/IP mechanism guaranteed delivery of data packets by introducing a system of acknowledgements and sequence numbers for the data packets. This mechanism, while good for transacting large amounts of data (such as email or file transfers), is unsuitable in the real-time type environment in which the Cyclone operates. Because the Cyclone needs to transact data as quickly as possible to the target, it takes advantage of TCP/IP’s alternative, the UDP/IP protocol. Unlike TCP/IP, the UDP/IP protocol is a connectionless, single-packet protocol that sends short data packets at the expense of not guaranteeing their delivery. This makes the UDP/IP protocol efficient in real-time applications such as broadcasting video over the Internet, where the occasional loss of a frame of data is not going to hamper the overall viewing experience. Left unmodified, the UDP/IP, with its lack of guarantees for packet delivery, would be unusable in an environment where the delivery of a single byte of data needs to be guaranteed. The Cyclone firmware adds mechanisms to the UDP/IP protocol, without affecting its underlying efficiency, to guarantee delivery of data packets.
Internet Protocol. IP-Line Link a logical link between You and Carrier Network provisioned as part of the Service Minimum Committed Bandwidth or MCB represents the minimum bandwidth (measured in Mbps) that a customer on the 95th Percentile Internet Data Plan agrees to pay for every billing cycle whether or not that bandwidth is used.
Internet Protocol. (“IP”) Addresses and Numbers. The MSA sets forth agreement regarding internet protocol addresses and numbers.
Internet Protocol. The basic communications protocol used by the Internet, in conjunction with TCP or UDP. An IP address, e.g., 129.170.16.79, identifies a host on an IP network.
Internet Protocol. Version 6 (IPv6). All procurements using Internet Protocol shall comply with OMB Memorandum M-05-22, Transition Planning for Internet Protocol Version 6 (IPv6).
Internet Protocol. Addressing Each “host” or device must have a unique “IP Address” In the current version of IP (IPv4), these addresses are 4 octets long or 32 bits To make them easy for humans to remember they are represented by 4 octets of decimal numbers, separated by a “.” For example: 152.2.81.1 or 128.95.220.25 “dotted quad” address IP (Internet Protocol) Addressing Each “host” or device must have a unique IP Address In the current version of IP (IPv4), these addresses are 4 octets long or 32 bits To make them easy for humans to remember they are represented by 4 octets of decimal numbers, separated by a “.” For example: 152.2.81.1 or 128.95.220.25 “dotted quad” address 10000000 11010000 1100100 1100111 128 208 100 103 Special IP Address Numbers 0 and 255 have special meanings in IP addresses 0 and 255 are reserved for special purposes Example: 128.208.100.255 is a broadcast address for the 128.208.100.x network Devices have addresses from 1-254 In Binary Consider the following possible IP address: Which is written as: 128.208.100.103 Given this format: The smallest value of any octet could be 00000000 or 0 decimal The largest value of any octet could be 11111111 or 255 Address Classes (historical) Each 32 bit address is actually divided into 2 different fields The NetID portion of the address identifies the network that a host is connected to The HostID portion of the address gives each node on a given network a unique identifier When the addressing scheme was devised it was assumed that there would be a few networks with a very large number of hosts, a moderate number of networks with an intermediate number of hosts, and a large number of networks with a small number of hosts Different “address classes” were designated for these scenarios Address Classes - A, B, C Class A addresses support: 16 million hosts on each of 127 networks Class B addresses support: 65,000 hosts on each of 16,000 networks Class C addresses support: 254 hosts on each of 2 million networks IP Address Classes (historical) Class A: 127.0.0.1 and below Class C: 192.0.1.0 to 223.255.255.255 Class E: 240.0.0.0 and above not used Class B: 127.0.1.0 to 191.255.255.255 Class D: Not used for networks, multicast Reserved IP Network Addresses 127.0.0.1 – “loopback”, the local machine 10.x.x.x – class A private networks 172.16.0.0 – 172.31.255.255 – class B private networks 192.168.x.x – class C private networks These special addresses can be used ...
