DE112005003225B4 - Test device for use in a test system for checking transmission processes within a mobile radio network and method for operating such a test device - Google Patents

Abstract

A test device (1) is used in a test system for testing transmission processes within a mobile radio network. The test device (1) has a mobile telephone (2), which is designed such that it can communicate with a Subscriber Identification Module (SIM). Furthermore, the test device (1) has a mobile phone (2) locally associated SIM simulation computer (4) for providing a SIM simulation, which is connectable to a central, physical SIM cards (9) managing SIM server computer (7). The SIM simulation computer (4) comprises an Answer to Reset (ATR) generator (5) designed for a time-critical transmission for generating an ATR signal (8) which matches a part of a complete ATR signal. The test device has a less powerful computer compared to the SIM simulation computer (4) for less time-critical transmission of an ATR residual signal.

Description

The invention relates to a test device for use in a test system for testing transmission processes within a mobile radio network according to the preamble of claim 1 and to a method for operating such a test device according to claim 4.

Such a test device and a test system in which this can be used, are known from the WO 2004/049746 A1 , Although a quite efficient test method is possible with this known test system, there is a need to further accelerate the test procedure.

The DE 102 49 086 A1 describes a communication system and method for using SIM cards remotely for calls between fixed and mobile networks. The publication "Smart Card Handbook, Third Edition, ISBN 0-470-85668-8, John Wiley & Sons, 2003" describes an ATR signal with skew between individual bits of the ATR signal. The technical specification "3GPP TS 11.11; Specification of the Subscriber Identity Modules - Mobile Equipment (SIM-ME) Interface (Release 1999), V8.12.0 (2004-03) "also describes specifics of an ATR signal.

It is therefore an object of the present invention to develop a test device of the type mentioned in such a way that when used in a test system for checking transmission processes within a mobile network results in a lower time compared to the time required by the known test method.

This object is achieved by a test device with the features specified in the characterizing part of claim 1.

To determine the manner of data communication between a SIM card and a read-write unit is an Answer to Reset (ATR) signal, which is stored in each SIM card. Such ATR signals are defined in standards as far as their data content is concerned. A first byte of the complete ATR signal allows the receiving mobile phone to recognize that the actual receive data is actually an ATR signal. This first byte is also referred to below as the ATR start signal. According to the invention, it has been recognized that, for the normally very time-critical transmission of the ATR signal after the reset, which must take place within 400 to 40,000 clock cycles due to fixed transmission standards, it is sufficient to send the ATR start signal. At a clock frequency of 3.2 MHz, this corresponds to a maximum period of 12.4 ms. So not all the ATR signal has to be sent. The forwarding of the remaining contents of the ATR signal, so the ATR residual signal, z. B. by the SIM simulation computer, however, is much less time-critical, so that a much less powerful computer can be used for the transmission of the ATR residual signal. In turn, the ATR generator, which in turn only needs to transmit the ATR start signal, can be specially grown to the transmission rate of that one data byte. The ATR start signal can thus be transmitted very quickly by the SIM simulation computer to the mobile phone after a reset, so that time-critical requirements in the millisecond range with regard to the passing on of this ATR signal part can also be met. Therein, the method according to the invention differs from known ATR transmission methods in which the entire ATR signal is always transmitted. With these known methods, it is often impossible to guarantee that the ATR data arrive at the mobile phone on time and without significant time delays. By contrast, the transmission of the remaining ATR signal is much less time-critical, so that this further transmission can still be postponed. The ATR simulation signal initially transmitted by the SIM simulation computer can be completed with various ATR continuation signals to form various complete ATR signals. It is therefore possible to flexibly adapt the test method to requirements to be tested.

The SIM simulation computer is relieved and can advantageously be operated only with low power. Furthermore, it is possible to use a SIM simulation computer to control a multitude or multiplicity of ATR generators.

Part of the complete ATR signal carries the information with which maximum transmission speed the SIM card data can communicate. According to the invention, it has been recognized that the local data communication between the mobile telephone and the SIM simulation computer can be designed independently of the central data communication of the physical SIM card. By using the arrangement according to claim 2, which generates the part of the complete ATR signal containing the transmission speed information instead of the physical SIM card, the local data communication can be considerably accelerated. It is precisely this local data communication that is crucial in carrying out the test procedure due to the amount of data processed within mobile phones of newer generations. The test device according to claim 2 therefore leads to a further reduction of the time required in carrying out the test method.

With a frequency divider procedure according to claim 3, an unrestricted specification of the transmission speed for the local data communication is possible.

A further object of the invention is to specify a method for operating a test device according to the invention.

This object is achieved by a method with the features specified in claim 4.

The advantages of this method correspond to those which have already been mentioned with reference to the test device.

In a method according to claim 5, the ATR generator additionally serves to adapt the transmission speed of the data communication between the SIM simulation computer and the mobile telephone.

In the method according to claim 6, the ATR generator additionally serves as an interface for compatible data transmission between the SIM simulation computer and the mobile telephone. In particular, a standard computer can be used as a SIM simulation computer.

Embodiments of the invention will be explained in more detail with reference to the drawing. In this show:

1 a test system for checking transmission processes within a mobile radio network; and

2 another embodiment of a test system.

Such a test system for testing transmission processes within a mobile network is basically known from the WO 2004/049746 A1 ,

An in 1 in total with 1 designated local test device for use in such a test system comprises a mobile phone 2 , The mobile phone 2 can communicate with a Subscriber Identification Module (SIM). It did not matter whether it is a physical SIM card, ie a real card, or the emulation or simulation of such a SIM card.

Via a signal line 3 is the mobile phone 2 for data communication with a SIM simulation computer 4 connected. The SIM simulation computer 4 provides a SIM simulation. The signal line 3 includes the usual signal connections of a smart card mobile phone, namely an input and output line (I / O), a supply voltage line (Vcc), a clock supply line (CLK) and a reset line (RST).

With the signal line 3 is an Answer to Reset (ATR) generator 5 of the SIM simulation computer 4 connected. The ATR generator 5 generates an ATR start signal as part of a complete Answer to Reset (ATR) signal which provides a list of the possible communication parameters of the data communication between the SIM simulation computer 4 and the mobile phone 2 contains. The ATR signal includes a switching signal, which is the switching of the mobile phone 2 allowed on the maximum data transmission speed. For example, in the case of UMTS mobile telephones, such a transmission rate switching is standard according to the IEC 7813 standard. Via a network 6 from each other in a known manner in signal communication transmission units is the SIM simulation computer 4 with a central SIM server computer 7 in connection. The network 6 is in the described embodiment of the test device 1 a data network of the mobile operator. The network 6 is usually independent of the mobile network to be tested. In some cases, it can be in the network 6 but also to the testing mobile network act.

Via a signal line 8th , which correspond to the signal line 3 is constructed, is the SIM server computer 7 with a physical SIM card 9 in connection. The SIM server computer 7 Can also use a plurality of physical SIM cards 9 keep in touch. In the SIM server computer 7 an administration of the SIM cards and an expiration of the test method for checking transmission processes in the mobile network according to what is done in the WO 2004/049746 A1 has been described in connection with the authentication computer. The SIM server computer 7 can also functions of the central control module 24 of the test system described in WO 2004/049746 A1. In carrying out the test procedure is mainly a local data communication between the mobile phone 2 and the ATR generator 5 over the signal line 3 and a local data communication between the ATR generator 5 and the SIM simulation computer 4 necessary. The central data communication between the physical SIM card 9 and the SIM server computer 7 in the context of authentication and data communication over the network 6 are not significant compared to this local data communication. In local data communication, the mobile phone initiates 2 first a reset signal, indicating the ATR generator 5 is passed on. After this deactivation of the RST signal by a reader of the mobile phone 2 sends the ATR generator 5 over the signal line 3 the ATR start signal as part of the entire ATR signal. The ATR start signal is the leading byte of a standard ATR signal. In the normal transmission mode, this byte has the hexadecimal value 3 B. This ATR start signal is within 400 to 40,000 clock cycles, in the present embodiment, ie within 12.4 ms after the initiation of the reset signal from the ATR generator 5 transferred to the mobile phone.

The transmission speed for this transmission is 8700 bit / s. The ATR generator 5 gives it from the mobile phone 2 received reset to the SIM simulation computer 4 further. The SIM simulation computer then transmits an ATR residual signal to the ATR generator 5 , The ATR residual signal lacks the ATR start signal compared to a conventional ATR signal, ie in this example the leading hexadecimal byte 3 B. The transmission of the ATR residual signal from the SIM simulation computer 4 to the ATR generator 5 takes place with a transmission speed of 115200 bit / s. The ATR residual signal includes the switching signal, which is a transmission speed switching of the mobile phone 2 on the maximum transmission speed is capable of triggering. The ATR residual signal thus contains the smallest divider for the maximum transmission speed. The ATR residual signal is then taken from the ATR generator 5 over the signal line 3 to the mobile phone 2 transmitted at a transmission speed of 8700 bit / s. The ATR generator 5 adapted in connection with this transfer, the interface physics, z. From USB to Open Collector, allowing easy communication with the mobile phone 2 is possible.

In the next communication step of the mobile phone 2 is proposed by its SIM card reader, the fastest communication speed of the SIM card. For this purpose, a transmission speed default parameter from the mobile phone 2 to the ATR generator 5 transfer. This transmission takes place at 8700 bit / s. The ATR generator 5 sends this transfer rate default parameter to the SIM simulation computer at a transfer rate of 115200 bit / s 4 further. The latter confirms this default parameter by keeping it unchanged at transmission speed 115200 bit / s to the ATR generator 5 returns. The latter sends the data from the SIM simulation computer 4 received information at 8700 bit / s to the SIM card reader of the mobile phone 2 , This transmission includes the above-mentioned transmission speed switching of the mobile phone 2 at its maximum transmission speed. Through the ATR generator 5 So is the transmission speed between the ATR generator 5 and the SIM card reader of the mobile phone 2 converted to 100625 bit / s. Subsequently, the SIM card reader communicate 4 of the mobile phone 2 with the ATR generator 5 with 100625 bit / s.

About the ATR signal is the mobile phone 2 So the largest of a plurality of possible transmission speeds given by the mobile phone 2 can be processed. This, on the I / O line of the signal line 3 now occurring data transmission can be several times faster than that on the signal line 8th possible data transfer between the physical SIM card 9 and the SIM server computer 7 , Compared to a G2 SIM card, data can be transferred between the SIM card reader of the mobile phone 2 and the SIM simulation computer 4 to z. A factor 11 be transferred faster. Compared with SIM cards of the newer generation, a speed advantage of, for example, a factor of 3 is possible.

The integration of the SIM simulation computer 4 in the specification of a transmission speed on the signal line 3 Represents one of the SIM simulation computer 4 processed frequency divider procedure, with which different integer divisor of a basic clock frequency can be specified.

The time required to complete the test procedure that causes the local data communication is therefore compared to a local data communication with the transmission rate of the physical SIM card 9 is possible, significantly reduced. Overall, this significantly shortens the test times.

A variant of the test system shows 2 , Components and processes corresponding to those already described above with reference to 1 have the same reference numbers and will not be discussed again in detail. At the test device 1 to 2 is the ATR generator 5 not in the SIM simulation computer 4 integrated, but represents one compared to the SIM simulation computer 4 external component. With the SIM simulation computer 4 is the ATR generator 5 at the test device 1 to 2 via another signal line 10 in connection.

After transmission of the ATR start signal from the ATR generator 5 to the mobile phone 2 a transmission of the remaining ATR signal to the mobile phone takes place 2 from the SIM simulation computer 4 out over the wires 10 and 3 , During the transmission of the remaining ATR signal, the ATR generator is used 5 according to the above test system 1 Executed for the adaptation of the transmission speed and for the adaptation of the interface physics.

Claims (6)

Test device ( 1 ) for use in a test system for checking transmission processes within a mobile radio network - with a mobile telephone ( 2 ) which is designed such that it can communicate with a Subscriber Identification Module (SIM), - with a mobile telephone ( 2 ) locally assigned SIM simulation computer ( 4 ) for providing a SIM simulation using a central physical SIM card ( 9 ) managing SIM server computer ( 7 ), characterized in that the SIM simulation computer ( 4 ) an answer to reset (ATR) generator (ATR) generator designed for time-critical transmission ( 5 ) for generating an ATR start signal corresponding to a part of a complete ATR signal, wherein the test device has a comparison with the SIM simulation computer ( 4 ) has less powerful computer for less time-critical transmission of ATR residual signal. Test device according to claim 1, characterized by an arrangement of the mobile telephone ( 2 ), the SIM simulation computer ( 4 ) and the ATR generator ( 5 ) such that via the intermediate ATR generator ( 5 ) as the transmission speed for the data communication between the SIM simulation computer ( 4 ) and the mobile phone ( 2 ) the largest of a plurality of possible transmission speeds is given by the mobile phone ( 2 ) can be processed. Test device according to claim 2, characterized in that the SIM simulation computer ( 4 ) is designed for processing a frequency divider procedure, with which different integer divisors of a basic clock frequency can be specified. Method for operating a test device according to one of Claims 1 to 3, characterized by the following method steps: initiation of a reset signal by the mobile telephone ( 2 ) and forwarding to the ATR generator ( 5 ), Time-critical transmission of the ATR start signal within 400 to 40000 clock cycles after the reset signal from the ATR generator ( 5 ) to the mobile phone ( 2 ), - passing on the reset signal from the ATR generator ( 5 ) to the SIM simulation computer ( 4 ), - less time-critical transmission of an ATR residual signal from the SIM simulation computer ( 4 ) to the ATR generator ( 5 ), - forwarding the ATR residual signal from the ATR generator ( 5 ) to the mobile phone ( 2 ), Wherein for the less time-critical transmission of the ATR residual signal compared to the ATR generator ( 5 ) is used in terms of transmission speed of less powerful computer. Method according to Claim 4, characterized by the following further method steps: transmission of a transmission speed specification parameter from the mobile telephone ( 2 ) to the ATR generator ( 5 ), - forwarding the transmission rate default parameter from the ATR generator ( 5 ) to the SIM simulation computer ( 4 ), - acknowledgment of the transmission speed default parameter by the SIM simulation computer ( 4 ) to the ATR generator ( 5 ), - Increasing the transmission speed of communication between the ATR generator ( 5 ) and the mobile phone ( 2 ) by a corresponding, from the ATR generator ( 5 ), the conversion to that for the mobile phone ( 2 ) maximum permissible transmission speed. Method according to claim 4 or 5, characterized in that the transmission between the ATR generator ( 5 ) and the SIM simulation computer ( 4 ) at a different transmission speed than the transmission between the ATR generator ( 5 ) and the mobile phone ( 2 ).

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