As far as I concern, both of them are the same.
Throughput rate: is the amount of data per second that can be transferred.
Transmission rate: is also the amount of data that could be transmitted onto the communication link per second.
Fastest transmission rate would be 802.11n
In telecommunications, bit rate or data transfer rate is the average number of bits, characters, or blocks per unit time passing between equipment in a data transmission system. This is typically measured in multiples of the unit bit per second or byte per second. Gbps = gigabytes per second.
Difference between rate of talk and rate at which the brain processes information.
Sprint offers wireless contract plans, prepaid plans and also monthly rate plans as well. They also sell a variety of different phones and accessories as well.
The churn rate is the number of individuals who move out of a group in a specified period of time. In broadcasting the churn rate can be used to measure the number of viewers/listeners and determine the steady viewership of the show.
Bandwidth is the measure of range or band of frequencies that a channel or path can handle at a maximum rate. whereas, throughput is the average rate of successful message delivery over a communication channel. and Goodput is simply the changing in throughput rate.
Throughput: The rate at which an amount of work or data can be processed. It is a measure of comparative effectiveness of a process or an operation. Output: Quantity produced, created, or completed. It is a measure of productive capacity of a machine, factory, industry, company, or an individual.
Throughput
The baud rate.
the answer is rate
one is unrealised and the other is realised
ti yonh
voltage = the electrical "pressure"current = the electrical "movement rate" or "flow rate"
High-Throughput Economy - The situation in most advanced industrialized countries, in which ever-increasing economic growth is sustained by maximizing the rate at which matter and energy resources are used, with little emphasis on pollution prevention, recycling, reuse, reduction of unnecessary waste, and other forms of resource conservation. Compare low-throughput economy, matter-recycling economy.
The acronym 'ADSL" stands for Asynchronus Digital Subscriber Line. Asynchronous means that data rates for Upstream Throughput (transmission from your PC to the internet) and Downstream Throughput (Transmission from the internet to your PC) are not equal. Usually the downstream rate is 5-10 times faster than the upstream. For most home users, this is preferred, as they will be receiving much more information than they will be sending. Business users and Web designers may benefit more by SDSL (Synchronous DSL), where the upstream and downstream throughputs are the same, allowing for faster uploads, with a minor sacrifice in download speed.
Fastest transmission rate would be 802.11n
Differences in Transmission Rate and Coverage Range Transmission Rate Differences LoRa Transmission rate range: Typically 0.3 kbps to 37.5 kbps. LoRa's rate can be adjusted by modifying the spreading factor. A higher spreading factor results in a lower transmission rate but improves signal anti-interference capability and extends transmission distance. LoRaWAN LoRaWAN's transmission rate is determined by the LoRa physical layer modulation technology. The protocol layer adjusts different spreading factors to balance the transmission rate of each node. Coverage Range LoRa LoRa's physical layer modulation technology enables a transmission distance of 10 to 15 kilometers in open environments. Transmission distance is closely related to the spreading factor and transmission power: a higher spreading factor and greater power result in a wider coverage range. LoRaWAN NiceRF LoRaWAN, as a network protocol, does not directly define coverage range. By deploying multiple LoRa gateways, coverage can be extended to achieve wide-area IoT connectivity. Summary Data transmission rate: LoRa has a limited data rate, but LoRaWAN can adjust the spreading factor to reduce speed while enhancing anti-interference capability and extending transmission distance. Coverage range: A single LoRa node has a long coverage range in open environments, while LoRaWAN extends coverage through a multi-gateway architecture, making it suitable for wide-area coverage needs. NiceRF When designing an IoT system, the transmission rate and coverage range of LoRa and LoRaWAN should be optimized based on specific application requirements to ensure network performance and coverage effectiveness.