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Drive Test
Drive Test is one way of measuring the quality of service (QoS) in mobile networks, in addition to the stationary measurement and statistics collection by the operator. As opposed to other methods, DT is a measure which takes place on the move. The objective of Drive Test is the most truthful recreation of the conditions in which the user uses the mobile network (moving with constant and different speed, change of the radio conditions) and behaviour of the user (the height of the antennas placing, calls setup and using web services according to the scenario based on the observation of user actions). As a result, the measures are close to the actual experience of the user who uses the mobile network.
Most measures include areas so-called ‘clusters’. The separate drive route is prepared for each cluster. When planning the route, different aspects are taken into account e.g. the type of the area which is measured (urban, rural … etc.), the service which is tested, the main movement of subscribers, the number of measuring hours available and many other factors that should be taken into account.
QoS (Quality of Service) specifies the guaranteed level of services quality ordered and received by the mobile network user during the service contract with the operator. As far as telecommunication services are concerned QoS are defined by three functions: access, information transfer and disconnection, and three criteria: speed, accuracy and reliability. The mobile network operator is obliged to provide services of a specific, guaranteed quality
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Drive Test
A special measuring car moves on the outlined drive route. This motor vehicle is specially prepared for measuring mobile networks, equipped with measuring devices, allowing the measurement of all network parameters necessary to evaluate the quality of services. A current position of the measuring car is acquired thanks to the GPS receiver built into the device. The car can not move faster than it was assumed during the drive route planning. Effects can be viewed on the home page RFBenchmark.
Only those measuring tools which comply with the ETSI standard are used for Dive Tests. In addition, each testing car is equipped with a radio scanner, which enables an independent measurement of the signal level in the three available technologies: 2G, 3G and LTE at the same time.
Thanks to these measurements and the report of their subsequent analysis, the operator of mobile network has information which allows to optimise the network, which means introducing changes to improve radio coverage or the quality and to introduce new services for their customers.
Cluster in telecommunications means a group of cells served by bandwidth which is accessible to the mobile network operator. The cell is a smaller area of the whole system. The area of the cell is dependent on the geographical conditions and the number of subscribers (microcells in urban areas, macrocells in rural areas). The number of cells in a cluster can take specific values counted according to the formula, e.g. 1, 3, 4, 7, 9, 12, 13, 16… etc. The conditions existing in the area decide about the number of cells in a cluster.
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The voice service quality measurements
During Drive Tests measures the voice calls between the mobile terminal (the tested one) and the receiving device (e.g. ISDN, another mobile terminal) are made. Tested measuring voice connections may take place to and from the measuring terminal, depending on the set work order. When measuring, the voice quality is expressed as a single number in the range from 1 to 5 according to the MOS scale.
MOS (Mean Opinion Score) provides a numerical indication of the perceived quality from the users’ perspective of received media after transmission. The MOS is expressed as a single number in the range 1 to 5:
5 – excellent quality (full understanding of discussion, there is no need to concentrate during the call for full understanding and transparent communication),
4 – good quality (good level of understanding, little effort needed during the call to maintain full understanding of discussion),
3 – acceptable quality (noticeable decrease of quality – caller and receiver needs to focus during the call),
2 – poor quality (very bad quality – need maximum effort and full focus to understand what second person is talking about),
1 – unacceptable quality (despite of maximum effort it is impossible to understand what second person is talking about).
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The voice service quality measurements
To guarantee objective and repetitive measurement results, one of the two subjective estimating speech methods (MOS) is used: PESQ or POLQA. What is more, different kind of information is collected, e.g. the number of successful and unsuccessful calls, the number of dropped calls, the call setup time, the type of speech coding which is used and many others. On the home page RFBenchmark the voice quality measurement results are available after selecting the icon
POLQA (Perceptual Objective Listening Quality Assessment) is an objective method of estimating the subjective evaluation of speech quality. The most often expected way is expressed as a single number in the range from 1 to 5 according to the MOS scale. POLQA is the follower of PESQ (Perceptual Evaluation of Speech Quality).
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The packet service quality measurements
Measurements of the voice quality services and the internet services take place at the same time. An example of a measuring sequence is shown below.
Measurement | Description |
FTP DL (5x 5MB) | Downloading a 5 MB file in five parallel sessions from the test server |
FTP UL (5x 5MB) | Uploading a 5 MB file in five parallel sessions to test server |
HTTP Browsing: Kepler | Downloading the content of the test web page |
HTTP Get (10x 5MB) | Downloading a 5 MB file in ten parallel sessions from the test web page |
Ping (10x 32B) | Ten PING sessions where the size of the packet is 32B |
Video: YouTube 30sec | Downloading video streaming from YouTube during 30s |
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The packet service quality measurements
Throughput and RTT are measured parameters which are more important in terms of the user view. On the basis of these two-parameter analysis, we obtain information about the internet speed offered by the operator and about the purposes of the network connection usage. Different data are also collected, e.g: the amount of successful and unsuccessful FTP sessions, HTTP, Ping, the reason of the session failure, the technology type in which the mobile terminal worked and many others. You can check the speed of the internet on the RFBenchmark home page by selecting the icons.
Throughput in telecommunication determines the amount of data transferred correctly at a specific time and most frequently is given in megabits per second (Mbps).
RTT (Round Trip Delay Time) informs you about the length of time it takes for a message to be sent from our computer to the network one, plus the length of time it takes for an acknowledgment of that message to be received. The smaller the RTT value, the better. The similar parameter is (latency), which informs you about the length of time it takes for a message to be sent from our computer to the network one.