Deck 8: Data and Network Communication Technology

A complete communication protocol is a complex combination of subsidiary protocols and the technologies to implement them.

​In the server arena, serial standards, such as Serial Attached SCSI (SAS), have replaced older parallel standards.

Command messages can be used to transmit information about data messages, such as format, content, length, and other information the receiver needs to interpret the data message correctly.

​Communication line cost is the same in simplex and half-duplex modes.

S/N ratio is computed as the log of signal power minus noise power.​

​Circuit switching makes efficient use of channel capacity in most data transmission situations.

​Despite its complexities, packet switching is the dominant form of intercomputer communication.

Messages can be loosely categorized into two types-data messages and command messages.​

​Phase is a wave characteristic that's fundamentally the same as amplitude or frequency.

​To limit skew errors, high-speed parallel communication channels must be short, typically less than two meters.

​Circuit switching is inefficient for most data transmission settings because few users require high data transmission capacity continuously.

The FM method holds frequency constant while varying amplitude to represent data.

​A parallel channel's transmits individual bits over separate wires, fibers, or frequencies.

Square waves are the preferred method of transmitting digital data over short distances, such as on a system bus.

Wave characteristics, such as frequency and amplitude, are inherently discrete.

​Bits are encoded in a wave by precisely manipulating, or modulating, amplitude, frequency, or phase.

Communication protocols are less important for computer-to-computer communication than for person-to-person communication.

RF transmission is more complex than wired transmission because it incorporates more sophisticated error detection/correction and security methods.

Data messages vary in format and content and can include any primitive CPU data types or more complex data types.​

​Because block size is always the same in synchronous transmission, the receiver always knows where one block ends and another begins.

​Type I error rates can be reduced by combining parity checking and block checking.

​Under FDM, a single narrowband channel is partitioned into multiple broadband subchannels.

​Unlike block checking, CRC cannot produce a BCC for a group of characters or bytes.

​Parity checking can be based on even or odd bit counts.

​Asynchronous transmission uses channel capacity more efficiently than synchronous transmission.

​Narrowband channels in a single broadband channel must use the same signaling methods, communication protocols, and transmission speeds.

​Parity checking has a low Type I error rate.

​A crucial component of any communication protocol is a method for detecting and correcting errors in data transmission, reception, or interpretation.

​CRC has much higher Type I and Type II error rates than parity and block checking.

​A(n) ____________________ signal can contain one of a finite number of possible values.

​Light, radio frequencies, and electricity travel through space or cables as a(n) ____________________.

​A(n) ____________________ is a unit of data or information transmitted from a sender to a recipient.

​A(n) ____________________ signal uses the full range of a carrier wave characteristic to encode continuous data values.

​A wave with encoded bits is called a(n) ____________________ wave because it transports bits from one place to another.

The ____________________ of a sine wave is measured in degrees, with 0° representing the beginning of the wave's cycle and 360° representing the end.

A(n) ____________________ is a set of rules and conventions for communication.

​A(n) ____________________ consists of a sending device, a receiving device, and the transmission medium connecting them.

____________________ is a measure of wave height or power-the maximum distance between a wave's peak and its zero value.

The communication path that transports signals is called a(n) ____________________.