NL1016618C2 - Device which makes it possible to transfer journey data registered, processed and stored by the device from a vehicle to telecommunication and / or data networks outside the vehicle. - Google Patents

Description

DEVICE WHICH MAKES A TRANSFERRING TRIP DATA OF A VEHICLE RECORDED, PROCESSED AND STORED TO THE TELECOMMUNICATIONS AND / OR DATA NETWORKS OUTSIDE OF THE VEHICLE

5 {VERSION 6 - 15-11-'00}

The invention relates to a device for use in vehicles, which makes it possible to provide data relating to a journey of the vehicle, such as a journey number, date and time of the start of a vehicle journey, date and time of the end of a vehicle trip, the mileage at the beginning and at the end of a vehicle trip, and an indication of the quality of the trip, for example private, business, commuting, to register, to process and to transfer to one or more telecommunications and / or data networks outside the vehicle.

Traditionally, cars and other (motor) vehicles have a device for recording the distance traveled by the vehicle. Even today, many of these "odometer readers" are still based on a mechanical conversion of wheel or axle revolutions to distance traveled, which is displayed via a mechanical or electronic counter in the dashboard of the vehicle. In addition to a possibility to record the total distance the vehicle has traveled since its commissioning, there is often also a possibility to record the distance traveled per trip via a so-called "day counter", which at the start of a trip zero can be set. With the aforementioned conversion of the number of wheel or axle revolutions to distance traveled, deviations may occur in the order of magnitude of five percent.

Nowadays, said distance measurement increasingly takes place via electro-mechanical recorders, in order to be able to process the distance information in electronic form in the control and control electronics, which occupies an increasingly important place in contemporary vehicles. The wheel or axle revolutions are thereby represented in the form of electric pulses, the number of pulses per period being related to the distance the vehicle has traveled during this period. It should be noted here that the relationship between the number of pulses per period and distance is dependent on vehicle parameters such as the wheel diameter.

An accurate registration of the distance that a vehicle travels is important for many reasons. More traditional matters in which this registration plays a role are, for example, determining the value of a vehicle at purchase and sale, determining the times at which periodic maintenance of the vehicle must take place, determining the rental price, determining the mileage allowance payable for the business use of a private vehicle, determination of the fare for taxi transport, for example, or registration of fuel consumption per kilometer.

These days the economic importance of (car) mobility is very high. In addition, many companies have a leased fleet, whereby ownership, and usually also the management and maintenance of the vehicles, rests with the leasing companies. The latter, however, cannot always have up-to-date information regarding the vehicles, such as the current kilo-30 meter reading, to determine, for example, whether periodic maintenance of the vehicle should be carried out, or to determine whether the lease contract should be revised, because the vehicle has to travel considerably more kilometers than previously estimated. The more expensive 1016318 ^ 3 types of cars occasionally have extensive sensor and control devices, with, for example, the possibility of sending a notification to the maintenance service by telecommunications about disruptions in vehicle systems. However, these devices are expensive, so that their use for the average commercial vehicle fleet is not economically feasible. Moreover, such devices are in most cases specific for the relevant brand, or even for the relevant type of car. Flexible application of this in vehicles of different make and / or type is therefore virtually excluded.

In the patent document US 5 673 018 a relatively simple passive transponder device is described, which is mounted on a wheel of a vehicle. The wheel rotations are recorded by means of a sensor and converted to covered distance. The distance information is stored in an electronic memory in the device. When the transponder now enters the electromagnetic field of a special transmitter / receiver, which is placed, for example, at the entrance of a garage or gas station, the transponder emits a signal consisting of an electronic representation of the distance information, which then is registered by the recipient. This device has the disadvantage that the distance information can only be transmitted at certain locations. Furthermore, when mounting the electronics on moving parts on the outside of the vehicle, in this case a wheel, the chance of damage, and therefore of malfunctions, is great.

Furthermore, devices are known in which vehicle data of a different nature are transmitted by means of infrared light to receivers outside the vehicle. Here too, however, the data only applies to «f r * ·. /: r '· - r' '' '-.

4 certain locations can be transferred, and also that a visual connection is required between the transmitter in the vehicle and the receiver outside the vehicle.

5 Recording the distance traveled by a vehicle also plays an important role when a distinction has to be made between business and private mileage. This is the case with most companies with a fleet that mainly consists of leased vehicles. The tax authorities apply a tax addition if the number of private kilometers traveled with the vehicle exceeds a certain threshold. To avoid this addition, a "comprehensive" kilometer registration must be carried out. This also means that it must be demonstrably possible to attribute the kilometers specified as business to business activities. To substantiate this, in addition to the kilometer registration, accurate activity registration must also take place. Manually keeping both records mentioned by, for example, reading the odometer in the vehicle per trip, determining the distance traveled during the trip and recording this together with the associated business activity, leads in many cases to errors and 25 inaccuracies, and as a result incur significant, unnecessary costs.

Over the years, countless systems have been developed to remedy the aforementioned problems through the automation of both kilometer and activity registration. The patent document US 5 541 858 describes a device in which a portable unit, including a microprocessor, a RAM memory, a display and a keyboard, can be placed in a holder in the vehicle. The system uses the 1016618 ^ 5 electronic signal for the odometer, which is already standard in most vehicles of a fairly recent year. In addition, the system offers the user the option of registering business activities by assigning them numerical codes. An activity registration, for example a visit to a specific client, can now be assigned to each trip registration by entering the corresponding code, after which the information is stored in the portable unit 10. In the portable unit there is furthermore a plug connection, via which the registered information can later be transferred to, for example, a personal computer for further processing.

The document US 6 064 929 describes a device, wherein the aforementioned portable unit is formed by a portable personal computer (notebook, laptop) provided with software for extensive activity registration. The electronic signal for the odometer available in the vehicle is supplied to the computer via a cable and combined herein with a time and activity registration.

Important disadvantages of the last two known devices are that the portable unit or the personal computer are personal. After all, it is the responsibility of the user to move the device to, for example, an office, where the stored information can be read out to be processed in, for example, the business administration. However, the electronic signal for the odometer is dependent on vehicle-related factors, such as for example the wheel diameter. When using the mentioned systems in a vehicle other than the previous registration, a calibration of the 1016618 "? 6 distance measurement must therefore be carried out each time before the first ride in this next vehicle. This usually means that a user has at least two times the count of the vehicle's odometer must enter the device, which can lead to errors and inaccuracies In addition, the recording of, for example, odometer readings using a portable, personal unit such as a portable computer, the disadvantage that if the vehicle in question were used in the meantime by another person 10 who did not have the same portable unit, the mileage record would no longer be "conclusive", since the last recorded mileage in the first-mentioned unit then comes no longer corresponds to the current mileage, prior to a following 15 registra With the aid of said portable computer, a user must therefore again manually enter the current mileage in the device, with the aforementioned disadvantages as a result.

The device according to the present invention aims to provide a solution for the drawbacks of known devices in this field. To this end, a device is proposed, intended for use in vehicles, for recording, processing and storing data relating to the journeys of that vehicle. The device comprises provisions for data transfer between the device and suitable electronic systems in the vehicle and / or in the vicinity of the vehicle. These electronic systems are understood to mean, for example, mobile telephones and portable computers (such as laptops, notebooks, palm tops, personal digital assistants), which today are fairly commonly included in the equipment of business drivers of vehicles and which as such, at least during working hours , in ! , Ί! '· ~ R' · 7 vehicles are present.

The device according to the invention is characterized by the fact that it comprises provisions for controlling such electronic systems in the vehicle, or in the vicinity of the vehicle, in such a way that via these systems the processed, registered by the device and stored data relating to vehicle journeys are transferred to one or more telecommunication and / or data networks outside the vehicle.

This gives a user a large degree of freedom in the choice of the telecommunication and / or data network via which the data transfer will take place, for example a GSM network, satellite networks, the Dutch Traxys network or the future UMTS (Universal Mobile Telecommunications System) ), and also in the choice of the form in which the communication will take place, for example in the form of SMS (Short Message Service), Electronic mail messages, or fax messages. An important advantage of using these networks is that the vehicle does not have to go to a specific location in order to transfer said journey data. Electronic systems, such as mobile telephones and portable computers, are generally available and relatively inexpensive. For the transmission of data between the device according to the invention and said electronic systems, the device can use a range of communication standards, such as IrDA (Infrared Data Association) for communication via infrared light, and Bluetooth for radio communication over short distances, which are widely supported by manufacturers of, for example, mobile telephones and portable computers.

Systems such as the aforementioned portable computers thereby offer flexible possibilities for further processing of the trip data on site, for adding additional data and for, for example, printing data via a printer in the vehicle.

5

The device according to the invention can itself also comprise provisions for the direct transfer of trip data registered, processed and stored by the device to one or more telecommunication networks and / or data networks outside the vehicle. For example, a built-in transmit / receive facility for the GSM network. This embodiment variant of the device offers advantages when little interaction between the system according to the invention and a user of the vehicle is required or desired. This may be the case, for example, when the function of the device according to the invention is limited to the periodic sending of journey data to, for example, the fleet manager or to a maintenance service. The data transfer facilities between the device according to the invention and electronic systems in the vehicle, or in the vicinity of the vehicle, are then only accessible, for example, by an authorized maintenance person who must enter or correct vehicle-specific data in the system. For this input or correction, one can for example think of the use of an infrared remote control.

The trip data recorded, processed and stored by the device according to the invention comprise at least one trip number, date and time of the start of a vehicle trip, date and time of the end of a vehicle trip, the mileage at the beginning and at the end of a vehicle ride, and an indication of the 1016616 9 ride type. The indication of the journey type can be understood to mean, for example, private, business or commuting.

Via an electronic system in the vehicle, or in the vicinity of the vehicle, which is suitable and comprises provisions for data transfer between the device according to the invention and said electronic system, additional data can be added to the data stored in the device per vehicle ride. added. One can think here of data concerning the business activity to which the relevant ride relates, such as a visit to a specific client. Such data can be added via, for example, a portable computer (laptops, notebooks, palm tops, personal digital assistants, etc.). In this way, a consistent combination of kilometer registration and activity registration can be achieved, which can lead to considerable tax benefits. Furthermore, said additional data may, for example, consist of the location of the vehicle at the beginning and the end of a journey, supplied by, for example, a G.P.S. system (Global Positioning System) present in the vehicle. Said vehicle location could also be determined by, for example with the aid of a mobile telephone, automatically detecting in which cell of a cellular mobile communication network the vehicle is located, and then using the geographical location of this cell as approximation of the location of said vehicle. In addition, additional data could be added to the trip data in the form of an electronic representation of spoken word. For this purpose, use could be made of, for example, a microphone installation for a mobile telephone built into the car, or of a microphone / headset set. Both 10'i c:; '10 are used frequently nowadays. The device according to the invention hereby provides great flexibility in use for various applications, in addition to a simple method of use.

5

For providing a basic functionality according to the invention, the device comprises at least the following parts: - a central control and processing unit, such as a microprocessor, provided with suitable programming for the intended operation of the device; - an electronic memory for storing vehicle-specific data, such as a vehicle identification code and data for calibration of the electronic signal for the odometer in the vehicle.

- an electronic memory for storing trip data registered and processed by the device.

- electronic facilities for keeping track of date and time.

- arrangements for detecting whether the contact switch of the vehicle is operated; - arrangements for registering the electronic signal present in the vehicle for the odometer.

- a connection via which data communication via a cable can take place with electronic systems outside the device; - an output device, suitable for issuing an optical and / or acoustic warning to a user of the device.

The above-mentioned parts can all be realized with the help of generally available, relatively inexpensive components.

1016618 ^ 11

Said electronic signal for the odometer can be advantageously obtained via a standardized plug connection, which is present in most cars of recent construction year for the purpose of connecting, inter alia, a car radio. By making use of this signal, one only has to take into account simple vehicle parameters, such as the wheel diameter, and not complex electronic control and control systems in the vehicle, which, moreover, are almost always brand and / or type specific to be. This has the advantage that the device according to the invention can be realized, built-in and calibrated in a relatively simple manner.

Via said standardized plug connection, it is also possible to easily detect whether the contact switch of the vehicle is operated, by detecting significant transitions in the electrical voltage on the supply conductor in said plug connection.

Said output device, suitable for issuing an optical and / or acoustic warning to a user of the device, preferably gives a warning to a user when the available memory capacity for storing trip data has fallen below a certain threshold. The latter situation could occur, for example, if, due to a malfunction in the electronic system in the vehicle 30 or in the vicinity of the vehicle, via which the device according to the invention transmits data to a telecommunications or data network outside the vehicle, said data transmission takes place during a period cannot take place. Said threshold in the memory capacity must, of course, be chosen such that, in normal use of the device according to the invention, a user still has sufficient time to call in technical advice and support before trip data is lost would go.

The device according to the invention can advantageously be designed such that data about the distance traveled per time unit by the device is periodically derived from the aforementioned electronic signal for the odometer, after which this data is stored in an electronic memory in the establishment. When said data concerning the distance traveled by the vehicle per time unit is stored in said electronic memory in such a way, said memory being of such a size that said data is present therein at any time during a vehicle ride, insofar as these Immediately prior to that time of a predetermined period of time, the device according to the invention could also act as a calamity recorder, somewhat analogous to the flight data recorder, also called "black box", in aircraft. Namely, at every point in time, the device according to the invention contains an overview of the distance traveled by the vehicle per time unit, recorded over a certain period prior to that time. When the length of said time unit is now chosen in the order of magnitude of a second, the recorded distance per time unit forms a reasonably accurate measure of the vehicle speed. After, for example, an accident, such data can provide valuable information about, for example, the circumstances and the course of the accident, such as, for example, 4 n - 1 c .... . "1 13 the gears and delays of the vehicle.

The aforementioned electronic memory in the device according to the invention, which serves for storing vehicle-specific data, contains, for example, data for calibrating the distance measurement by the device according to the invention. The content of said memory is therefore of primary importance for the correct functioning of the device, and can therefore advantageously be protected by means of encryption of data such that said data can only be entered, read and protected by a device for that purpose. competent person.

Preferably, the device according to the invention further comprises an input device, which offers a user of the device the option of indicating whether the device is to register the vehicle journey as business, private or commuter traffic. In a simple embodiment, this input provision could only consist of a switch with three positions.

The device according to the invention can comprise provisions for detecting whether the fuel tank opening of the vehicle fuel tank is opened or closed. This opening or closing of the tank opening gives an indication of the moments when fuel is apparently being refueled. Registration of this can serve to support the conduct of a fuel administration. Such an administration is often conducted in addition to the aforementioned distance and activity registrations. Leasing companies often offer so-called fuel schemes for lease cars. A chip card is then provided, with which the refueled fuel can be paid, for example, at petrol stations. Registration of the opening or closing of the vehicle's fuel tank opening can then be used to establish an administrative relationship between a tank session of a certain vehicle, and a settlement with the fuel chip card associated with the vehicle.

The device according to the invention preferably comprises provisions for data transfer via infrared light between the device according to the invention and electronic systems in the vehicle and / or in the vicinity of the vehicle. For this purpose, for example, a transmitter / receiver for infrared light can be arranged at a favorable location in the interior of the vehicle. Many electronic systems, such as mobile telephones and portable computers (such as laptops, notebooks, palm tops, personal digital assistants), which nowadays are fairly common among the equipment of business drivers of vehicles, also have facilities for data transfer via infrared. light. Furthermore, vehicle-specific data in the device according to the invention could then simply be entered or corrected by, for example, a maintenance employee via, for example, an infrared remote control. Possibly, said employee would not even have to enter the interior of the vehicle.

The aforementioned features of the device 30 according to the invention, which serve for data transfer via infrared light, can advantageously be arranged such that they function in accordance with the so-called "IrDA" (Infrared Data Association) communication standard. Electronic systems in the vehicle or in the vicinity of the vehicle which one would like to use with the device according to the invention, such as mobile telephones and portable computers, often already offer possibilities for data transfer and / or control via said communication standard.

Data transfer between electronic equipment, especially in the field of automation and communication, is increasingly taking place in accordance with the de facto communication standard "Bluetooth" for radio communication over short distances. It is therefore advantageous if the device according to the invention comprises provisions such that data transfer between said device and electronic systems in the vehicle, or in the vicinity of the vehicle, can take place in accordance with the latter standard, which is supported by large producers of automation and communication equipment.

The data recorded by or with the aid of the device according to the invention will often serve to accurately determine, for example, the extent of the private use of a commercial vehicle, the number of kilometers traveled with a rental car, etc. The financial consequences of this are usually in favor of, for example, the owner, lessor, lessor of the vehicle, but the user is responsible. Such a device must therefore be able to withstand attempts at undesired influencing or tampering. With the exception of the aforementioned input and output facilities and the aforementioned facilities for communication via infrared light, which must be located directly accessible in the passenger compartment of a vehicle, it is advantageous to use the other parts ί i Ό ii * 0 4Ï 16 of the device according to the invention, to be placed in the vehicle in such a way that they are mechanically fixed to it, and protected against unauthorized access and / or influencing, both from the passenger compartment of the vehicle and from outside the vehicle.

TEXT MESSAGE. (Short Message Service) messages are data messages with a simple structure that can be exchanged efficiently and cheaply via GSM (Global Sy-10 voice for Mobile Communications) networks. Trip data recorded, processed and stored by the device according to the invention and any additional added data can therefore be efficiently transferred in the form of S.M.S. messages to GSM or other suitable networks outside the vehicle.

Furthermore, the trip data registered, processed and stored by the device according to the invention and any additional added data can be transferred to suitable telecommunication and / or data networks outside the vehicle, in the form of electronic mail or fax messages.

The device according to the invention will be explained in more detail below with reference to an embodiment variant schematically shown in the figures. It should be noted here that the embodiment shown is chosen only for the purpose of illustration, but does not in any way entail a limitation of the scope of the invention.

Figure 1 shows schematically an embodiment variant of the device according to the invention.

Figure 2 shows a data structure for trip data, 101 6618 17, which can advantageously be used in the device according to the invention.

Figure 3 shows the data structure of an S.M.S. (Short Message Service) message.

Figure 4 shows the data structure of the header (= "header") of an S.M.S. message.

Figure 1 shows an embodiment variant 100 of the device according to the invention. This comprises a central processing unit 101, which is preferably formed by a microcontroller, provided with RAM memory (not shown) for storing the program instructions for the microcontroller and intermediate storage of data. The microcontroller is inter alia connected to a bus system 102 for exchanging data with other parts of the device. Many standardized designs are known for such a bus system. Said bus system 102 connects the microcontroller 101 to a first electronic memory 105 for storing vehicle-specific data, such as calibration data for the odometer and vehicle identification data, and in addition to a second electronic memory 106 for storing trip data and additional data added thereto, and with a so-called "Real-time-clock" (RTC) 107, an electronic device that keeps track of the current date and time. The electronic memory 106 is arranged such that when this memory becomes full due to circumstances, the oldest stored trip record is lost each time a new record is stored. The RTC 107 can be set by the microcontroller 101 and is provided with an emergency power supply 108, for example a (rechargeable) battery, which ensures that the current date and time are also kept when there is an interruption of the electrical power supply to the device according to the invention. Said electronic memories 105 and 106 are shown physically separately in Figure 1, but can in practice, together with the RAM of the microcontroller, be integrated in one and the same electronic component. Maintaining a physical separation between said memories may, however, be desirable if, for example, the memory 105 for vehicle-specific data is to be additionally protected against undesired external interference. Namely, the latter memory contains data which, if mutilated, could adversely affect the correct operation of the device according to the invention. In general, said vehicle-specific data will be entered at the commissioning of the vehicle by an authorized party, for example the fleet manager. For extra security, this data can be stored encrypted in memory 105, for example. The various electronic memories can advantageously be implemented as EE-PROM (Electrical Erasable Programmable Read Only Memory). Namely, in that case the content of said memories is retained when there is a possible interruption in the power supply of the device according to the invention. Both the microcontroller 101 and the RTC 107 are provided with the required clock pulses by an oscillator 103. Said oscillator 103 is preferably implemented as a quartz crystal oscillator. The device according to the invention preferably obtains the required electrical supply from the electrical supply system 200 of the vehicle in which the device is installed. This power supply can be supplied, for example, via the ISO (International Standardization Organization) standardized plug connection, which is standard in most icizj; w 1 19 cars of recent year for connecting a car radio, for example. The device according to the invention further comprises a power supply part 104, which adjusts the electric power supply from the power supply system of the vehicle so that it is suitable for the electronic components of which the device according to the invention is constructed. The power supply part 104 may further comprise, for example, provisions for saving energy when the device according to the invention is used less frequently. For issuing an optical and / or acoustic warning to a user of the device according to the invention, the device may comprise an output device 109. This output provision could consist of a display, one or more diode lamps (LEDs), a buzzer etc. or combinations thereof. Via said output provision, for example, information can be given to a user about the operating condition of the device, or a warning when the storage capacity of the electronic memory 106 for storing data of rides has been utilized to a certain extent. The device according to the invention further comprises an input device 110, which is preferably of simple design, for example in the form of a three-position switch with which a user can make known whether a vehicle journey should be registered as business, private or commuting. traffic, but which may also consist of, for example, a keyboard. In most automobiles of recent construction year, an electronic pulse signal 300 is generated, which forms a measure of the distance traveled by the vehicle. Such a pulse signal 300 can usually be obtained via the aforementioned ISO-standardized plug connection, which is standard for most cars of recent construction year for connection 101651 of, for example, a car radio. The device according to the invention further comprises a provision 111 which makes it possible to detect whether the contact switch of the vehicle is operated, and provisions 112 which make it possible to detect whether the fuel tank opening of the vehicle fuel tank is opened or opened. is closed. Said detecting whether the vehicle's contact switch is operated can be effected, for example, by detecting significant voltage transitions on the supply conductor of the aforementioned ISO-standardized plug connection, which is standard for connection in most cars of recent construction year from for example a car radio. The device 113 brings the signals supplied by the devices 111 and 112 and the pulse signal 300 into such a form that they can be further processed by the microcontroller 101. Reference 114 refers to the communication part of the device according to the invention. This communication part comprises provisions for transferring data between the device according to the invention and electronic systems 400 in the vehicle or in the vicinity of the vehicle. These electronic systems 400 may, for example, consist of a mobile telephone and / or a portable computer (such as a laptop, notebook, palmtop, personal digital assistant). The aforementioned data transmission facilities may, for example, consist of a simple cable, but also of a transmitting / receiving device for infrared light or for short-distance radio communication. The device according to the invention can control said electronic systems 400 via the communication part 114 such that the latter systems transmit data supplied by the device according to the invention to telecommunication and / or data networks outside the vehicle. . In this way, trip data and any additional data, for example in the form of S.M.S. (Short Message Service) messages, or electronic mail messages, are transferred via a mobile telephone to, for example, a leasing company or maintenance service. The data transfer between the communication part 114 of the device according to the invention and said mobile telephone can then, for example, take place via a cable or via infrared light, for example in accordance with the IrDA 10 (Infrared Data Association) communication standard. When the device according to the invention is to function completely autonomously and interaction with a user, for instance for placing a mobile telephone, or switching on a portable computer, is undesirable, the communication part 114 can itself also be provided as, for example, a transmission / receiving device, for direct transfer of data to, for example, a mobile telecommunications network. Via said electronic systems 400, further data can be added to the trip data stored in memory 106. Via a portable computer, for example, data relating to the business activity to which the relevant trip is to be attributed can be added. Via a GPS (Global Positioning System) system, data regarding the location of the vehicle can be added at the start and at the end of the journey, and a voice message can be added via the microphone system of a mobile phone. An electronic system 400 could also consist of an infrared remote control, via which an authorized person could enter, read out or correct the vehicle-specific data in the electronic memory 105. The device according to the invention thus offers a user great freedom and flexibility in the degree of user interaction and choice for communication media. By making use of standardized methods of data transfer, the functionality can easily be expanded with the aid of, for example, GPS systems, which are nowadays increasingly present in vehicles. Furthermore, all the aforementioned parts of the device according to the invention can be realized with the help of generally available standard components, and the device 10 makes use of facilities which are currently available as standard in most vehicles.

Trip data and any additional data are preferably stored in the electronic memory 106 according to the data structure shown in Fig. 2. The device according to the invention functions in principle continuously, although the aforementioned power supply part 104 may comprise provisions to completely partially off. However, the detection of certain events, hereinafter referred to as "recording events", has the consequence that the device according to the invention is in any case automatically brought into an operating state suitable for recording such an event. In the simplest case, a registration event consists of operating the vehicle's contact switch, irrespective of whether this also starts or stops the engine, and of opening or closing the fuel tank opening of the vehicle's fuel tank. Both registration events result in a trip registration taking place, which is stored in the memory 106 in accordance with the data structure of Fig. 2. Each basic trip registration consists of a data block of 20 bytes (8 bits per byte). The first two bytes RN of said data block contain a ride number. Trip numbers are consecutively assigned upon the occurrence of a registration event, for example, operating the contact switch or opening the fuel tank opening of the vehicle fuel tank. From the real-time clock 107, the microcontroller 101 receives the current date and time of the start of the recording event and adds it to the trip registration, in the form of the four bytes DT1. In the three bytes KMI the position of the odometer 10 is stored at the start of a trip. When the device is put into operation, the initial mileage is entered into the memory 105 by an authorized person. Based on the calibration data entered in the same memory 105, the pulse signal 300, which is generated during vehicle movement, is converted to the covered distance, thereby increasing the mileage with each trip registration. The three bytes KM2 contain the mileage at the end of a ride, the four bytes DT2 contain the date and time of the end of that ride. In view of the fact that opening the fuel tank opening of the vehicle is considered a registration event and is also registered as the start of a journey, and the fact that a vehicle generally does not move during the refueling of fuel, it may be clear that the mileage at the beginning and at the end of a tank session will be equal to each other. The byte RT contains an indication of the type of the ride. As a trip type, one could, for example, distinguish between "business", "private", "commuting" or "refueling". As previously described, data can be added to a trip registration via electronic systems in the vehicle or in the vicinity of the vehicle, such as mobile telephones, portable computers, GPS systems, etc. Here 4 n o r · '· A f:>

J ü i y U i O

24, the bytes XTR in Figure 2 can be used. However, it may happen that the trip registration plus extra data cannot be stored in 20 bytes. In that case, additional data blocks of 20 bytes can be added to a trip registration, and the first (left-most) byte XTR in Figure 2 can be used as a counter to indicate how many data blocks still follow for the relevant trip registration. With simple trip recordings, in which, for example, no electronic representations of speech are added as extra data, it is unlikely that a trip record will comprise more than 2 blocks of 20 bytes. For example, if the size of the memory 106 for storing trip data were only 8 Kilobytes (= 8192 bytes), more than 400 trip registrations could be stored in said case. As described above, an optical and / or acoustic warning could be issued via the device 109 to a user of a device according to the invention if the available capacity of the memory 106 has fallen below a certain value. In general, however, such a situation will only occur if, for example, a malfunction in the communication part 114 of the device, in an electronic system 400 (such as a mobile telephone) or in the external telecommunications and / or data network 500, no transfer of trip data to a telecommunications or data network outside the vehicle can take place for a long time. Said threshold for the memory capacity 30 must, of course, be chosen such that a user, after being warned by the device, generally still has sufficient time to call in expert help before the memory 106 is full and trip data is lost to go.

1 o n: 25

The communication part 114 of the device according to the invention, for example, could control a mobile telephone such that the journey data from the electronic memory 105 is periodically in the form of an S.M.S. (Short Message Service) message can be transferred to, for example, a GSM (Global System for Mobile Communications) network. Figure 3 shows a preferred data structure of an S.M.S. message for sending trip data and additional data by the device 10 according to the invention. The message contains a header (= "header") of the size of 20 bytes, and 6 data blocks of 20 bytes each. This brings the total length of the message to 140 bytes. The data blocks can in this case be track records of the device according to the invention. Figure 4 shows a preferred structure for the header of an S.M.S. message when used with the device according to the invention. The two bytes BN contain the message number, the byte VNS the version number of the software used. The two bytes CHK comprise a so-called CHecK sum (= "check digit"), which serves to verify the unchanged transmission of the message upon receipt. The six bytes ID contain an identification of the sending vehicle. This identification can for example be the registration number of the vehicle, coded in ASCII (American Standard Code for Information Interchange). The nine bytes XTR are free to use for sending extra data. In addition to the use of S.M.S. For example, the trip data could easily be sent in the form of email 30 or fax messages.

It will be clear that the invention is not limited to the embodiment described above, and that many variants and additions are possible within the scope of the invention.

1016618 <

Claims (23)

Device for use in a vehicle, for recording, processing and storing data relating to journeys of that vehicle, comprising provisions for data transfer between the device and suitable electronic systems in the vehicle and / or in the vicinity of the vehicle, characterized in that the device according to the invention comprises provisions for controlling at least one other electronic system present in the vehicle or in the immediate vicinity of the vehicle such that via this system the device registered by the device, processed and stored trip data are transferred to one or more telecommunication and / or data networks outside the vehicle. 2. Device as claimed in claim 1, characterized in that the device itself comprises provisions for transferring said journey data to one or more telecommunication and / or data networks outside the vehicle. Device as claimed in any of the foregoing claims, characterized in that the journey data recorded, processed and stored by the device comprise at least one journey number, date and time of the start of a vehicle journey, date and time of the end of a vehicle journey, the mileage at the beginning and at the end of a vehicle journey, and an indication of the journey type. -J r \ λ c »C '* O I Ü 1 Cu i Device as claimed in any of the foregoing claims, characterized in that additional data can be added to the data relating to a journey stored in the device via an electronic system in the vehicle or in the vicinity of the vehicle which is suitable, and provisions for data transfer between the device according to the invention and said electronic system. Device as claimed in claim 4, characterized in that said extra data consists of an electronic representation of the location of the vehicle at the start and at the end of a journey. 6. Device as claimed in claim 5, characterized in that said electronic representation of the location of the vehicle is determined by automatically detecting in which cell of a cellular network for mobile communication the vehicle is located, and subsequently the geographical location of this cell to be used as an approximation of the location of said vehicle. 7. Device as claimed in claim 4, characterized in that said extra data consists of an electronic representation of speech. Device as claimed in any of the foregoing claims, characterized in that this device comprises at least the following parts: 30. a central control and processing unit, such as a microprocessor, provided with suitable programming for the intended operation of the device; - an electronic memory for storing vehicle-specific data, such as a vehicle identification. code and data for calibration of the electronic signal for the odometer in the vehicle; - an electronic memory for storing trip data registered and processed by the device; 5. electronic devices for keeping track of date and time; arrangements for detecting whether the vehicle's ignition switch is operated; - arrangements for registering the electronic signal present in the vehicle for the odometer; - a connection via which data communication via a cable can take place with electronic systems outside the device; 15. an output device suitable for giving an optical and / or acoustic warning to a user of the device. 9. Device as claimed in claim 8, characterized in that said detecting whether the vehicle's contact switch is operated is effected by detecting significant transitions in the voltage on the supply conductor of the standardized plug connection, which in most cars of recent year 25 are present for the connection of, among other things, a car radio. 10. Device as claimed in claim 8, characterized in that said electronic signal for the kilometer counter is supplied by the device via the standardized plug connection which is present in most cars of recent construction year for the purpose of connecting, inter alia, a car radio. - Ü ü v. " 11. Device as claimed in claim 8, characterized in that said output device, suitable for issuing an optical and / or acoustic warning to a user of the device, issues this warning when the available memory capacity for storing trip data below a certain threshold has been lowered. Device as claimed in claim 8, characterized in that data about the distance traveled by the vehicle per unit of time is periodically derived by the device from said electronic signal for the odometer, after which this data is stored in an electronic memory in the device. 15 13. Device as claimed in claim 12, characterized in that said data on the distance traveled by the vehicle per unit of time is stored in said electronic memory in such a way, and that said memory has such a capacity that this results in a data buffer in which a quantity of the most recently recorded data, at the size of said capacity of said memory, is present at all times. 25 14. Device as claimed in claim 8, characterized in that the content of said electronic memories for storage of vehicle-specific data and for storage of journey data are protected by encryption of data such that said data can only be entered, read out and modified by an authorized person. Device as claimed in any of the foregoing claims, characterized in that the device comprises an input device, which allows a user of the device to indicate whether the device drives the vehicle as business, private, then as commuter traffic 5 must register. Device as claimed in any of the foregoing claims, characterized in that the device comprises provisions which make it possible to detect whether the fuel opening of the vehicle fuel tank is open or closed. 17. Device as claimed in any of the foregoing claims, characterized in that the device comprises provisions for data transfer via infrared light between the device according to the invention and electronic systems in the vehicle and / or in the vicinity of the vehicle. Device according to claim 17, characterized in that said facilities for data transfer via infrared light function in accordance with the so-called "IrDA" (Infrared Data Association) communication standard. 25 19. Device as claimed in any of the foregoing claims, characterized in that the device comprises provisions such that data transfer between the device according to the invention and electronic systems in the vehicle and / or in the vicinity of the vehicle can take place in accordance with the so-called "Bluetooth" de-facto communication standard for radio communication over short distances. 101 QQ 1 C ^ 20. Device as claimed in any of the foregoing claims, characterized in that different parts of the device according to the invention are placed in the vehicle in such a way that they are mechanically connected to it and protected against unauthorized access and / or influencing, both from the passenger compartment of the vehicle, as well as from outside the vehicle. 10 Device as claimed in any of the foregoing claims, characterized in that the journey data registered, processed and stored by the device and any additional added data, in the form of S.M.S. 15 (Short Message Service) messages are transferred to telecommunications and / or data networks outside the vehicle. Device as claimed in any of the foregoing claims, characterized in that the journey data registered, processed and stored by the device and any additional added data, in the form of electronic mail messages, are transferred to telecommunications and / or data networks outside the vehicle. 25 23. Device as claimed in any of the foregoing claims, characterized in that the journey data registered, processed and stored by the device and any additional added data are transmitted in the form of fax messages to telecommunications and / or data networks outside the vehicle .