Abstract: A network monitoring apparatus in a communications network detects TCP data flows (to at least one network-served end user) to provide corresponding detected data flows. This apparatus then measures data throughput to this (or these) end user(s) via the TCP data flows and during the TCP data flows and calculates an average effective data throughput to this end user. This calculation can be based, by one approach, upon use of time variables that represent the detected data flows (to effectively gamer a beginning-to-end view oft be various TCP data flows while avoiding inclusion of periods that represent no (or possibly only a little) volume in these regards as may be due to application idle time or end-user idle time while including periods that represent no (or possibly only a little) volume due to network buffering, device performance problems, and so forth).

Abstract: A network monitoring apparatus in a mobile communications network monitors, for a predetermined time, TCP packets in the network that tend to comprise end-user traffic using the high-speed data path but not the low-speed data path to provide monitored packet information. The network monitoring apparatus uses this monitored packet information to identify the fastest end user-experienced communication exchanges within the mobile communications network. By one approach, the network monitoring apparatus effectively filters out most or all of the end-user traffic that uses the low-speed data path when providing that monitored packet information. This can comprise, for example, tending to utilize data pertaining to TCP packets that correspond to higher traffic volume (and hence that are likely being conveyed via a high-speed data path) while also tending to discard data that pertains to TCP packets to that correspond to low traffic volume (and hence that are likely being conveyed via a low-speed data path).

Abstract: A network monitoring apparatus in a mobile communications network monitors, for a predetermined time, TCP packets in the network that tend to comprise end-user traffic using the high-speed data path but not the low-speed data path to provide monitored packet information. The network monitoring apparatus uses this monitored packet information to identify the fastest end user-experienced communication exchanges within the mobile communications network. By one approach, the network monitoring apparatus effectively filters out most or all of the end-user traffic that uses the low-speed data path when providing that monitored packet information. This can comprise, for example, tending to utilize data pertaining to TCP packets that correspond to higher traffic volume (and hence that are likely being conveyed via a high-speed data path) while also tending to discard data that pertains to TCP packets to that correspond to low traffic volume (and hence that are likely being conveyed via a low-speed data path).

Abstract: A network monitoring device performs peak-throughput measurements for each of a plurality of data sessions in a network to provide corresponding peak-throughput values. The network monitoring device then filters the peak-throughput values to remove peak-throughput values that correspond to data sessions that fail to at least meet a relevant standard to provide filtered peak-throughput values. By one approach, these peak-throughput measurements can comprise a plurality of relatively short-duration peak-throughput measurements. The aforementioned relevant standard can vary with the needs and/or opportunities as tend to characterize a given application setting. By one approach these teachings will further comprise filtering the peak-throughput values to remove peak-throughput values that correspond to portions of data sessions where data-throughput speeds are intentionally low for reasons other than throughput-limit conditions.

Abstract: A network monitoring apparatus in a mobile communications network monitors, for a predetermined time, TCP packets in the network that tend to comprise end-user traffic using the high-speed data path but not the low-speed data path to provide monitored packet information. The network monitoring apparatus uses this monitored packet information to identify the fastest end user-experienced communication exchanges within the mobile communications network. By one approach, the network monitoring apparatus effectively filters out most or all of the end-user traffic that uses the low-speed data path when providing that monitored packet information. This can comprise, for example, tending to utilize data pertaining to TCP packets that correspond to higher traffic volume (and hence that are likely being conveyed via a high-speed data path) while also tending to discard data that pertains to TCP packets to that correspond to low traffic volume (and hence that are likely being conveyed via a low-speed data path).

Abstract: A network monitoring apparatus in a communications network detects TCP data flows (to at least one network-served end user) to provide corresponding detected data flows. This apparatus then measures data throughput to this (or these) end user(s) via the TCP data flows and during the TCP data flows and calculates an average effective data throughput to this end user. This calculation can be based, by one approach, upon use of time variables that represent the detected data flows (to effectively garner a beginning-to-end view of the various TCP data flows while avoiding inclusion of periods that represent no (or possibly only a little) volume in these regards as may be due to application idle time or end-user idle time while including periods that represent no (or possibly only a little) volume due to network buffering, device performance problems, and so forth).