Patent Publication Number: US-2023139242-A1

Title: Method, device and arrangement for tracking moving objects

Description:
CROSS-REFERENCE TO RELATED APPLICATIONS 
     This application claims priority to PCT Application No. PCT/EP2016/061793, having a filing date of May 25, 2016, the entire contents of which are hereby incorporated by reference. 
    
    
     FIELD OF TECHNOLOGY 
     The tracking (tracking and tracing) of objects moving in space, for example any type of vehicles moving with respect to land, air and water (for example motor vehicles, rail vehicles, aircraft and watercraft, bicycle, etc.) and moving living things (for example human and animal), is, in addition to the guidance of said objects, a possible field of application for the use of navigation systems, for example the Global Positioning System (GPS) or GALILEO system, for assisting control or monitoring systems (for example traffic control centers during traffic control). 
     BACKGROUND 
     Accordingly, GPS-based systems having GPS receivers assigned to the moving objects and/or ground stations for receiving the satellite signals emitted by the GPS satellites orbiting the Earth are widespread. In order to determine the respective object location (position determination) by means of radiolocation, one-way distance measurements (time-synchronous measurements of the propagation times of the satellite signals each multiplied by the speed of light) are carried out by the GPS receiver during triangulation (consideration of the signals from three satellites) or quadrangulation (consideration of the signals from four satellites). 
     In addition to this satellite-based tracking of said moving objects, there are also terrestrial radio-based systems which could be fundamentally used to track the trail of moving objects of said type. 
     Such systems include “intelligent transport systems (ITS)” in which, for the purposes of traffic telematics, data based on the road traffic are captured, transmitted and processed using information and communication technologies and are used to provide information on the traffic and to organize, control and/or guide said traffic. If such data are interchanged, on the one hand, between the individual road users (for example motor vehicle drivers, cyclists, pedestrians, etc.) and, on the other hand, between the road user and the traffic infrastructure (for example array of traffic systems)—this is then also referred to as V2X (“vehicle to X”) communication—, a cooperative ITS is involved, in which a V2X communication unit is assigned to each road user and to each traffic system. This assignment is such that the V2X communication unit is arranged in the vehicle belonging to the road user as a vehicle-independent, separate “on-board unit (OBU)” in the vehicle or has already been integrated in the on-board electronics of the vehicle or, if the road user participates in the traffic as a pedestrian, is carried by the road user, for example as a PDA (personal digital assistant) device similar to a cell phone or smartphone, and the V2X communication unit is included in the traffic system as a retrofit kit or as an integral part. 
     The term “cooperative” is used because the ITS assists the road user with its traffic-related tasks, for example in dangerous situations in traffic and to help to avoid accidents in this case. All of this is carried out by means of mutual communication between the road users which, as a result, continuously interchange information and warnings in real time. Each road user regularly, for example approximately ten times per second, communicates its own state to all other V2X receivers. This is carried out, for example, in the form of messages (information)—also referred to as status messages (status information)—having object-identifying and vehicle-identifying information parameters, for example a (pseudonymous) identifier (ID) and a (pseudonymous) message certificate identifier (certificate ID) and having non-object-identifying and non-vehicle-identifying information parameters which indicate, for example, position, time stamp, direction of travel, speed, vehicle type, etc. This status message (status information) is transmitted by the V2X communication unit, which is used by the road user as a motor vehicle driver or cyclist or as a pedestrian, with the stated periodicity of approximately 10 times per second and can then be received both by all other road users and by the infrastructure, that is to say the traffic systems, with the aid of V2X communication units. 
     With the cooperative ITS configured in this manner, the trail of each road user could now be fundamentally tracked and statements relating to the local traffic flow could be obtained thereby. However, for reasons of data protection law and in order to make the persons in the vehicle or the person as a pedestrian untrackable, the state regularly transmitted with the status message (status information) is anonymized, that is to say the use of the (pseudonymous) identifier (ID) and of the (pseudonymous) message certificate identifier (certificate ID) is rendered unusable, in principle. This occurs in such a manner that the identifier (ID) and/or the certificate ID is/are changed in the interval of approximately 1 minute, for example. 
     As a result of the anonymization of the transmitted status messages (status information) and the irregular change of identity (for example approximately 1 minute), it is no longer reliably possible to determine traffic information at different locations along a route for tracking (cf.  FIG.  1   ) on account of the changing identity. As a result, neither a user of the V2X communication unit nor the movement trail of the vehicle used by said user or the user&#39;s own movement trail as a pedestrian can be tracked. However, from the point of view of traffic, it would be desirable to track the behavior of individual road users over a relatively long time in order to better capture traffic flows on longer routes. The traffic information measured at different points along a route would enable more detailed statements to be made on the traffic flow. 
       FIG.  1    shows a cooperative ITS scenario with respect to a road VKS, a section of which is illustrated and which is in the preferred form of a freeway, on which a vehicle FZ (this is a bus, for example, in the illustrated  FIG.  1   ; but it could also be another vehicle, for example an automobile, a truck, a motorcycle, a bicycle, etc.) respectively drives past a stationary road device SV′ in the form of a “roadside unit” RSU′ in a direction of movement (direction of travel) BWR at different times t 1 , t 2 , t 3 . The vehicle FZ thus passes a first “roadside unit” RSU 1 ′ at the time t 1 , a second “roadside unit” RSU 2 ′ at the time t 2  and a third “roadside unit” RSU 3 ′ at the time t 3 . The road device SV′ or the “roadside unit” RSU′, RSU 1 ′, RSU 2 ′, RSU 3 ′ may be any desired technical system which belongs to the traffic infrastructure, controls the traffic and/or provides information relating to the traffic and/or an electronic device which is configured for this purpose and is preferably capable of V2X communication, as already mentioned above. In this case, the road devices SV′ or the “roadside units” RSU 1 ′, RSU 2 ′, RSU 3 ′ are passed by the vehicle FZ along a capture route EFS of the road VKS. 
     Reference is made to a capture route because the vehicle FZ preferably transmits or emits an item of information IF at regular intervals of time, for example every 100 ms, via a radio signal which needs to be captured. For this purpose, the vehicle FZ has an information transmitting device ISE which is preferably in the form of the V2X communication unit and is also again integrated in the on-board electronics of the vehicle (for example if the vehicle is a “non-legacy vehicle”) or else is in the form of a vehicle-independent, separate device (for example if the vehicle is a “legacy vehicle”). This information IF contains a multiplicity of parameter data items PD belonging to information parameters according to the following table for  FIG.  1    (Table- FIG.  1   ). 
     
       
         
           
               
             
               
                 TABLE 
               
             
            
               
                   
               
               
                 FIG. 1 
               
            
           
           
               
               
            
               
                 Emitted information (IF) with 
                 Parameter data (PD) emitted with respect to the vehicle (FZ) at times (t1, t2, t3) 
               
            
           
           
               
               
               
               
            
               
                 information parameter 
                 t1 
                 t2 
                 t3 
               
               
                   
               
               
                 (Pseudonymous) identifier ID 
                 =100123 
                 =100123 
                 =567001 
               
               
                 (Pseudonymous) information certificate ID 
                 =xy12789 
                 =xy12789 
                 =83df02 
               
               
                 Certificate authority 
                 =certauth123 
                 =certauth123 
                 =certauth123 
               
               
                 Position (WGS84) 
                 =Lat: XX.xxx(t1)/ 
                 =Lat: XX.xxx(t2)/ 
                 =Lat: XX.xxx(t3)/ 
               
               
                   
                 Lon: YY.yyy(t1) 
                 Lon: YY.yyy(t2) 
                 Lon: YY.yyy(t3) 
               
               
                 Time stamp 
                 =dd.MM.yyyy(t1)/ 
                 =dd.MM.yyyy(t2)/ 
                 =dd.MM.yyyy(t3)/ 
               
               
                   
                 HH:mm:ss(t1) 
                 HH:mm:ss(t2) 
                 HH:mm:ss(t3) 
               
               
                 Type 
                 =Bus 
                 =Bus 
                 =Bus 
               
               
                 Direction of travel 
                 =west 
                 =west 
                 =west 
               
               
                 Speed 
                 =120 km/h 
                 =130 km/h 
                 =125 km/h 
               
               
                 Length 
                 =7.20 m 
                 =7.20 m 
                 =7.20 m 
               
               
                 Width 
                 =2.35 m 
                 =2.35 m 
                 =2.35 m 
               
               
                 Optional parameters 
                 =... 
                 =... 
                 =... 
               
               
                   
               
            
           
         
       
     
     In the case of the information parameters and the corresponding parameter data PD, a distinction is made between 
     (i) information parameters and associated parameter data PD which are used to uniquely identify the information transmitting device ISE as the transmission source of the information IF and therefore ultimately also the vehicle FZ and the data values of which, as already stated above, are continuously changed at regular intervals of time (for example in the region of approximately 1 minute) for anonymization purposes—these information parameters and parameter data PD are referred to below as object-identifying information parameters and parameter data PD—and
 
(ii) information parameters and associated parameter data PD which are used to characterize, indicate, type, etc., but not uniquely identify, the vehicle in which the information transmitting device ISE is situated as the transmission source of the information IF and the data values of which are not changed—these information parameters and parameter data PD are referred to below as non-object-identifying information parameters and parameter data PD.
 
     In said Table- FIG.  1   , the object-identifying information parameters and parameter data PD are indicated with gray shading, whereas the non-object-identifying information parameters and parameter data PD do not have any background shading (for example with respect to a gray scale and/or pattern) (white background in Table- FIG.  1   ). The table Table- FIG.  1    illustrates how the object-identifying parameter data PD at the time t 3  have changed in comparison with the object-identifying parameter data PD at the times t 1 , t 2 . 
     As soon as the vehicle FZ with the information transmitting device ISE emitting the information IF enters or drives into an information capture region IEB of an information capture device IEE in the road device SV′ or in the “roadside unit” RSU′, RSU 1 ′, RSU 2 ′, RSU 3 ′, the information IF emitted by the information transmitting device ISE with the parameter data PD at the times t 1 , t 2 , t 3  is captured by the information capture device IEE. The information capture region IEB reaches its maximum extent when the information IF emitted by the information transmitting device ISE can no longer be received by the information capture device IEE. 
     As a result of the anonymization of the transmitted information IF with the parameter data PD, which was carried out on account of the changing object-identifying parameter data PD, it is thus readily virtually impossible to track the trail of the vehicle FZ on the basis of the received parameter data PD and to make a statement on the traffic flow on the road VKS along the capture route EFS. As a result, it is not possible to determine any traffic data in the conventional sense since the identification of the vehicle fails. 
     Conclusion: there is currently no legal, technically sophisticated and cost-effective solution for determining long-term traffic data. There are solutions in which taxi fleets have been equipped with SMS transmitters or solutions in which trails of the hands-free devices (for example Bluetooth) in vehicles, for example, are used at different locations to determine traffic data. However, methods in which object-identifying and vehicle-identifying information, that is to say indicators of identity, are used are problematic, subject to approval or are not allowed at all in the first place for legal reasons (for example owing to protection of privacy). 
     SUMMARY 
     An aspect relates to a method, a device and an arrangement for tracking moving objects, in which the trail of the objects can be tracked without using object-identifying information, for example GPS information relating to the object or other individual identifiers which can be used to fundamentally identify an object or when the objects continuously change their respective identity. 
     The idea on which embodiments of the invention is based is how—with respect to the present proposal for a method, a device and an arrangement for tracking moving objects—a statement on the successful tracking of at least one part of the object group along a tracking route is obtained on the basis of the capture of information with non-object-identifying parameter data, emitted by the moving objects, preferably at regular intervals of time, which takes place along the tracking route repeatedly, in particular at different locations at different times, by means of object-group-specific considerations of the captured parameter data, group-specific data profiles obtained from these considerations and a data profile similarity comparison and how, in this respect, an item of tracking information is generated, which is not generated if such a statement is not possible. 
     Quite generally, the technical teaching outlined above with respect to the tracking of moving objects can be used wherever a statement on successful or failed tracking can be made using information with data relating to a plurality of information parameters, even if they have been partially anonymized, which information is obtained repeatedly, in particular at different locations at different times. This applies, for example, to the tracking of vehicles in road traffic (keyword: traffic telematics), to the tracking of humans and animals in public space and/or in nature (keyword: monitoring of persons and animals), etc. 
     With respect to the application for traffic telematics (for example the tracking of vehicles in road traffic using an “intelligent transport system (ITS)”), a traffic flow over relatively long routes can consequently be determined from ITS status messages (ITS status information) obtained repeatedly, in particular at different locations at different times, even if they have been anonymized. 
     This involves, in particular, the fact that:
     a) combinations of particular special characterizing parameters of ITS status messages (for example a “cooperative awareness message &lt;CAM&gt;” according to the ETSI standard “ETSI TS 102 637-2” for Europe or a “basic safety message &lt;BSM&gt;” according to the SAE standard “SAE J2735” for the USA as claimed in claims  6  and  15 ) are used. If a plurality of parameters are available, they can be used for identification from the point of view of traffic. Not only the values of the parameters but also the change and their time-dependent change (for example every 10 minutes) of some parameters can provide information on the manufacturer (for example the changing of certificates for the cryptographic signature of transmitted messages). In addition, the authority issuing certificates can provide information relating to the manufacturer of the vehicle or a group of vehicle manufacturers. As a result of this unique combination of a plurality of parameters of the messages transmitted by the vehicle, the vehicle can be uniquely identified from the point of view of traffic and, as a result, it is possible to capture the vehicle at different reception points (for example at “roadside units (RSU)”). This makes it possible to determine, for example, travel data, traffic jam information along a route.   b) combinations of particular special characterizing parameters of the status information transmitted by a group of vehicles are used. This expands case a) from one vehicle to a plurality of vehicles. As a result, the parameters of the different status information from a group of vehicles are combined and calculated as a unique indicator (=footprint, stamp, etc.). On a freeway for example, the grouping of vehicles on relatively long routes is constant (for example in the case of a convoy of trucks). This makes it possible to create a plurality of unique traffic indicators which are identified at different information capture points without infringing the anonymity of the individual vehicles.   

     As a result of the fact that specific vehicle parameters of a vehicle group are determined and combined, it is possible to determine a so-called “group footprint” of a vehicle group driving past a “V2X roadside unit” (for example a first “roadside unit” RSU 1 ). This “group footprint” can then be used to identify the vehicle group by further “V2X roadside units” (for example a second “roadside unit” RSU 2  and/or a third “roadside unit” RSU 3 ) downstream along the route. The more vehicles homogeneously drive together in the group, the higher the correlation at the further “V2X roadside unit” measurement points (RSU 2 , RSU 3 ). This makes it possible to determine traffic variables such as journey time, traffic jam, accident, etc. If vehicles leave the group along the journey (for example overtaking, exit, etc.), the “group footprint” should always be determined as a combination of a plurality of parameters within the vehicle group. The larger the group, the easier the correlation of the different parameters at the different “V2X roadside unit” installations. 
     This makes it possible to capture traffic data from vehicles with changing identities (pseudonyms) along a relatively long route. This capture was previously not possible (using conventional methods) on account of the changing identity. Instead, the traffic data could be captured only in the region of an individual roadside unit. 
     Advantageous developments of the technical teaching respectively stated in the independent patent claims are claimed in the patent claims respectively dependent thereon. 
     In the case of the V2X-specific ITS status messages (ITS status information), the following vehicle-specific, vehicle-characteristic message parameters can be used, for example, in a “cooperative awareness message &lt;CAM&gt;” as claimed in claims  7  and  16 :
         type of different vehicles belonging to the road users, for example bus, automobile, motorcycle, etc., in the group;   time stamp of vehicles belonging to the road users in the group should be close in terms of time;   position of different vehicles belonging to the road users in the group should be adjacent;   direction of vehicles belonging to the road users in the group should be the same;   speed of vehicles belonging to the road users in the group should be comparable;   length of different vehicles belonging to the road users is used as a group identifying feature;   width of different vehicles belonging to the road users is used as a group identifying feature;   issuing authority of the cryptographic certificates for the signature of the status messages;   certificate hierarchy for validating the certificate for the signature of the status messages;   repetition rate of the change of the parameters;   etc.       

     In addition, it is possible for vehicles to transmit further optional data elements in the status message which are used to identify a vehicle group. 
    
    
     
       BRIEF DESCRIPTION 
       Some of the embodiments will be described in detail, with references to the following Figures, wherein like designations denote like members, wherein: 
         FIG.  1    shows a prior art cooperative ITS scenario with respect to a road VKS, a section of which is illustrated and which is in the preferred form of a freeway, on which a vehicle FZ drives past a stationary road devices SV in the form of a “roadside units” RSU′ in a direction of movement (direction of travel) BWR at different times t 1 , t 2 , t 3 , 
         FIG.  2    shows, proceeding from the ITS scenario illustrated in  FIG.  1   , a first expanded cooperative ITS scenario for tracking at least one vehicle from a multiplicity of vehicles moving on the road or the freeway, in which a statement for tracking is obtained in a central unit, 
         FIG.  3    shows, proceeding from the ITS scenario illustrated in  FIG.  1   , a second expanded cooperative ITS scenario for tracking at least one vehicle from a multiplicity of vehicles moving on the road or the freeway, in which a statement for tracking is obtained in a local unit; and 
         FIG.  4    shows, on the basis of the expanded cooperative ITS scenario for tracking according to  FIG.  2   , the influence of dynamically changing affiliations of vehicles driving on the route or the freeway to the first group with respect to the first “roadside unit” having the first information capture region and to the second group with respect to the first “roadside unit” having the first information capture region on the similarity comparison (correlation check) to be carried out during the vehicle tracking according to  FIG.  2   . 
     
    
    
     DETAILED DESCRIPTION 
     Proceeding from the ITS scenario illustrated in  FIG.  1   ,  FIG.  2    shows a first expanded cooperative ITS scenario for tracking at least one vehicle from a multiplicity of vehicles FZ 1 , FZ 2 , FZ 3  moving on the road or the freeway VKS, in which a statement for tracking is obtained in a central unit. 
     In this expanded cooperative scenario, three vehicles—a first vehicle FZ 1 , a second vehicle FZ 2  and a third vehicle FZ 3 —which are all trucks, for example, according to  FIG.  2   , but any other vehicle type, for example automobile, bus, motorcycle, bicycle, etc. would be possible, are moving at an approximately comparable speed on the road or the freeway VKS in the direction of movement BWR. In this case, this convoy of trucks respectively drives past a stationary modified road device SV in the form of a modified “roadside unit” RSU at times t 1 , t 2 . This vehicle convoy formed from the vehicles FZ 1 , FZ 2 , FZ 3  therefore passes a first modified “roadside unit” RSU 1  at the time t 1  and a second modified “roadside unit” RSU 2  at the time t 2 . The road device SV or the “roadside unit” RSU 1 , RSU 2  can again be any desired technical system which belongs to the traffic infrastructure, controls the traffic and/or provides information on the traffic and/or an electronic device which is configured for this purpose and is preferably capable of V2X communication, as already mentioned above. The road devices SV or the “roadside units” RSU 1 , RSU 2  are passed by the vehicle convoy in this case along a first tracking route SVS 1  of the road VKS. 
     The first tracking route SVS 1  is also, at the same time, a capture route because each vehicle FZ 1 , FZ 2 , FZ 3  in the convoy preferably transmits or emits an item of information IF FZ1 , IF FZ2 , IF FZ3  corresponding to the vehicle at regular intervals of time, for example every 100 ms, via a radio signal which needs to be captured. For this purpose, each vehicle FZ 1 , FZ 2 , FZ 3  has an information transmitting device ISE FZ1 , ISE FZ2 , ISE FZ3  corresponding to the vehicle which is preferably in the form of the V2X communication unit and is also again integrated in the on-board electronics of the vehicle (for example if the vehicle is a “non-legacy vehicle”) or else is in the form of a vehicle-independent separate device (for example if the vehicle is a “legacy vehicle”). Each item of information of this information IF FZ1 , IF FZ2 , IF FZ3  corresponding to the vehicle contains a multiplicity of parameter data PD FZ1 , PD FZ2 , PD FZ3  which accordingly correspond to the vehicle and belong to information parameters according to the following tables for  FIG.  2    (Table- 1 - FIG.  2   , Table- 2 - FIG.  2   , Table- 3 - FIG.  2   ). 
     Table- 1 - FIG.  2    shows the information IF FZ1  emitted by the vehicle FZ 1  with the associated parameter data PD FZ1 , whereas Table- 2 - FIG.  2    shows the information IF FZ2  emitted by the vehicle FZ 2  with the associated parameter data PD FZ2  and Table- 3 - FIG.  2    shows the information IF FZ3  emitted by the vehicle FZ 3  with the associated parameter data FD FZ3 . 
     
       
         
           
               
             
               
                 TABLE 1 
               
             
            
               
                   
               
               
                 FIG. 2 
               
            
           
           
               
               
            
               
                   
                 Information (IF FZ1, t1 , IF FZ1, t2 ) emitted at times (t1, t2) with 
               
               
                 Information (IF FZ1 ) emitted by the vehicle (FZ1) with 
                 parameter data (PD FZ1, t1 , PD FZ1, t2 ) 
               
            
           
           
               
               
               
            
               
                 data relating to information parameters (PD FZ1 ) 
                 t1 
                 t2 
               
               
                   
               
               
                 (Pseudonymous) identifier ID 
                 =370988 
                 =440066 
               
               
                 (Pseudonymous) information certificate ID 
                 =C5e4Jx1 
                 =77gh07 
               
               
                 Certificate authority 
                 =certauth155 
                 =certauth155 
               
               
                 Position (WGS84) 
                 =Lat: XX.xxx(t1)/ 
                 =Lat: XX.xxx(t2)/ 
               
               
                   
                 Lon: YY.yyy(t1) 
                 Lon: YY.yyy(t2) 
               
               
                 Time stamp 
                 =dd.MM.yyyy(t1)/ 
                 =dd.MM.yyyy(t2)/ 
               
               
                   
                 HH:mm:ss(t1) 
                 HH:mm:ss(t2) 
               
               
                 Type 
                 =Truck 
                 =Truck 
               
               
                 Direction of travel 
                 =west 
                 =west 
               
               
                 Speed 
                 =110 km/h 
                 =105 km/h 
               
               
                 Length 
                 =17.00 m 
                 =17.00 m 
               
               
                 Width 
                 =2.50 m 
                 =2.50 m 
               
               
                 Optional parameters 
                 =... 
                 =... 
               
               
                   
               
            
           
         
       
     
     
       
         
           
               
             
               
                 TABLE 2 
               
             
            
               
                   
               
               
                 FIG. 2 
               
            
           
           
               
               
            
               
                   
                 Information (IF FZ2, t1 , IF FZ2, t2 ) emitted at times (t1, t2) with 
               
               
                 Information (IF FZ2 ) emitted by the vehicle (FZ2) with 
                 parameter data (PD FZ2, t1 , PD FZ2, t2 ) 
               
            
           
           
               
               
               
            
               
                 data relating to information parameters (PD FZ2 ) 
                 t1 
                 t2 
               
               
                   
               
               
                 (Pseudonymous) identifier ID 
                 =59780 
                 =123456 
               
               
                 (Pseudonymous) information certificate ID 
                 =mk982 
                 =an761 
               
               
                 Certificate authority 
                 =certauth105 
                 =certauth105 
               
               
                 Position (WGS84) 
                 =Lat: XX.xxx(t1)/ 
                 =Lat: XX.xxx(t2)/ 
               
               
                   
                 Lon: YY.yyy(t1) 
                 Lon: YY.yyy(t2) 
               
               
                 Time stamp 
                 =dd.MM.yyyy(t1)/ 
                 =dd.MM.yyyy(t2)/ 
               
               
                   
                 HH:mm:ss(t1) 
                 HH:mm:ss(t2) 
               
               
                 Type 
                 =Truck 
                 =Truck 
               
               
                 Direction of travel 
                 =west 
                 =west 
               
               
                 Speed 
                 =112 km/h 
                 =107 km/h 
               
               
                 Length 
                 =12.50 m 
                 =12.50 m 
               
               
                 Width 
                 =2.60 m 
                 =2.60 m 
               
               
                 Optional parameters 
                 =... 
                 =... 
               
               
                   
               
            
           
         
       
     
     
       
         
           
               
             
               
                 TABLE 3 
               
             
            
               
                   
               
               
                 FIG. 2 
               
            
           
           
               
               
            
               
                   
                 Information (IF FZ3, t1 , IF FZ3, t2 ) emitted at times (t1, t2) with 
               
               
                 Information (IF FZ3 ) emitted by the vehicle (FZ3) with 
                 parameter data (PD FZ3, t1 , PD FZ3, t2 ) 
               
            
           
           
               
               
               
            
               
                 data relating to information parameters (PD FZ3 ) 
                 t1 
                 t2 
               
               
                   
               
               
                 (Pseudonymous) identifier ID 
                 =54510 
                 =456789 
               
               
                 (Pseudonymous) information certificate ID 
                 =1w389 
                 =3o7hj 
               
               
                 Certificate authority 
                 =eurp2491 
                 =eurp2491 
               
               
                 Position (WGS84) 
                 =Lat: XX.xxx(t1)/ 
                 =Lat: XX.xxx(t2)/ 
               
               
                   
                 Lon: YY.yyy(t1) 
                 Lon: YY.yyy(t2) 
               
               
                 Time stamp 
                 =dd.MM.yyyy(t1)/ 
                 =dd.MM.yyyy(t2)/ 
               
               
                   
                 HH:mm:ss(t1) 
                 HH:mm:ss(t2) 
               
               
                 Type 
                 =Truck 
                 =Truck 
               
               
                 Direction of travel 
                 =west 
                 =west 
               
               
                 Speed 
                 =114 km/h 
                 =103 km/h 
               
               
                 Length 
                 =14.10 m 
                 =14.10 m 
               
               
                 Width 
                 =2.45 m 
                 =2.45 m 
               
               
                 Optional parameters 
                 =... 
                 =... 
               
               
                   
               
            
           
         
       
     
     In the case of the information parameters contained in the tables and the parameter data PD FZ1 , PD FZ2 , PD FZ3  corresponding to the vehicle, a distinction is again made between 
     (i) information parameters and associated parameter data PD FZ1 , PD FZ2 , PD FZ3  which are used to uniquely identify the respective information transmitting device ISE FZ1 , ISE FZ2 , ISE FZ3  corresponding to the vehicle as the transmission source of the information IF FZ1 , IF FZ2 , IF FZ3  and therefore ultimately also the respective vehicle FZ 1 , FZ 2 , FZ 3  and the data values of which, as already stated above, are continuously changed at regular intervals of time (for example in the region of approximately 1 minute) for anonymization purposes—these information parameters and parameter data PD FZ1 , PD FZ2 , PD FZ3  are referred to below as object-identifying information parameters and parameter data PD FZ1 , PD FZ2 , PD FZ3 —and
 
(ii) information parameters and associated parameter data PD FZ1 , PD FZ2 , PD FZ3  which are used to characterize, indicate, type, etc., but not uniquely identify, the respective vehicle FZ 1 , FZ 2 , FZ 3  in which the information transmitting device ISE FZ1 , ISE FZ2 , ISE FZ3  corresponding to the vehicle is situated as the transmission source of the information IF FZ1 , IF FZ2 , IF FZ3  and the data values of which are not changed—these information parameters and parameter data PD FZ1 , PD FZ2 , PD FZ3  are referred to below as non-object-identifying information parameters and parameter data PD FZ1 , PD FZ2 , PD FZ3  
 
     In said tables, Table- 1 - FIG.  2    to Table- 3 - FIG.  2   , the object-identifying information parameters and parameter data PD FZ1 , PD FZ2 , PD FZ3  are again indicated with gray shading, whereas the non-object-identifying information parameters and parameter data PD FZ1 , PD FZ2 , PD FZ3  again do not have any background shading (for example with respect to a gray scale and/or pattern) (white background in said tables). Said tables each illustrate how the object-identifying parameter data PD FZ1 , PD FZ2 , PD FZ3  at the time t 2  have changed in comparison with the object-identifying parameter data PD FZ1 , PD FZ2 , PD FZ3  at the time t 1 . 
     The number of information parameters (both with respect to the object-identifying parameters and with respect to the non-object-identifying parameters) respectively contained in the table is fundamentally open and can be increased or decreased in an arbitrary manner as required. In the present case, the parameters decisive for the exemplary embodiment are stated. 
     The meaning of these stated parameters and their data values are generally known and therefore do not require any further explanation at this point. When selecting the parameters, it should be taken into account (criteria catalog) that, for example, preferably
         different vehicle types of the road users, for example bus, automobile, motorcycle, etc., are captured;   the time stamp of the captured vehicles belonging to the road users should be as close as possible in terms of time;   the position of the captured different vehicles belonging to the road users should be as adjacent as possible;   the direction of the captured vehicles belonging to the road users should be as identical as possible;   the speed of the captured vehicles belonging to the road users should be as comparable as possible;   the length of the captured different vehicles belonging to the road users should be used as a (group) identifying feature;   the width of different vehicles belonging to the road users should be used as a (group) identifying feature;   the issuing authority of the cryptographic certificates is used for the signature of the status messages;   certificate hierarchy for validating the certificate is used for the signature of the status messages;   repetition rate of the change of the parameters is used.       

     If the vehicles FZ 1 , FZ 2 , FZ 3  in the convoy having the information transmitting devices ISE FZ1 , ISE FZ2 , ISE FZ3  corresponding to the vehicle and emitting the information IF FZ1 , IF FZ2 , IF FZ3  corresponding to the vehicle are in a first information capture region IEB 1  of a first information capture device IEE 1  of the modified first “roadside unit” RSU 1 , information IF FZ1,t1 , IF FZ2,t1 , IF FZ3,t1  emitted by the information transmitting devices ISE FZ1 , ISE FZ2 , ISE FZ3  of the vehicles FZ 1 , FZ 2 , FZ 3  at the time t 1  is captured by the first information capture device IEE 1  with parameter data PD FZ1,t1 , PD FZ2,t1 , PD FZ3,t1 . In a similar manner to the information capture region IEB in  FIG.  1   , the first information capture region IEB 1  reaches its maximum extent when the information IF FZ1 , IF FZ2 , IF FZ3  emitted by the information transmitting device ISE FZ1 , ISE FZ2 , ISE FZ3  can no longer be received by the first information capture device IEE 1 . 
     In order to be able to now track at least one vehicle in the vehicle convoy FZ 1 , FZ 2 , FZ 3  in the expanded cooperative ITS scenario, in contrast to the cooperative ITS scenario explained above on the basis of  FIG.  1   , first information IF 1  with first parameter data PD 1  from the maximum quantity of information predefined at the time t 1  by the information IF FZ1,t1 , IF FZ2,t1 , IF FZ3,t1  with the parameter data PD FZ1,t1 , PD FZ2,t1 , PD FZ3,t1  is captured from a first group GR 1  of the vehicles FZ 1 , FZ 2 , FZ 3 , which comprises at least one vehicle, but preferably a plurality of vehicles with the proviso “The greater the number of groups, the easier the correlation of the different parameter data from the information capture region”. When taking into account or stipulating the number of vehicles in the first group GR 1 , the criteria catalog mentioned above should be used when selecting the parameters. 
     In the present case, at the time t 1  according to  FIG.  2   , the three vehicles FZ 1 , FZ 2 , FZ 3  form the first group GR 1  even if the vehicle type is the same contrary to the criteria catalog because, for example, the speed of the vehicles is comparable and the prerequisite that the time stamps of the captured vehicles are close in terms of time and the position of the captured vehicles is adjacent is present (as illustrated in principle in  FIG.  2   ). The information IF FZ1,t1 , IF FZ2,t1 , IF FZ3,t1  emitted by the vehicles FZ 1 , FZ 2 , FZ 3  at the time t 1  with the parameter data PD FZ1,t1 , PD FZ2,t1 , PD FZ3,t1  is the first information IF 1  with the first parameter data PD 1  as a result of the capture affiliation of said vehicles to the first group GR 1  at the time t 1 . 
     For the further performance of the tracking, the first information capture device IEE 1  is now designed, preferably using generally conventional data processing means (for example a hardware unit based on a microprocessor and a memory component and program modules which can be operated and executed as software on the hardware unit), in such a manner that a data profile DP GR1  specific to the first group, in particular a group footprint or a group stamp of the vehicle group, is generated from the captured first parameter data PD 1 . 
     This data profile DP GR1  specific to the first group is then forwarded in the modified first “roadside unit” RSU 1  from the first information capture device IEE 1  to a first communication interface KSS 1  which is connected to the first information capture device IEE 1  and provides the data profile DP GR1  specific to the first group and received from the first information capture device IEE 1  for data evaluation based on a similarity comparison of data profiles. How, when and where this data profile similarity comparison takes place is explained further below in connection with the description of  FIG.  2   . 
     In the interim, while the first data profile is generated and forwarded as described, the vehicle convoy moves further along the first tracking route SVS 1  on the road or the freeway VKS. Since the vehicles FZ 1 , FZ 2 , FZ 3  in the convoy are moving at a comparable speed and if one of the vehicles does not leave the road or the freeway VKS—for example for a stop at a gas station or a rest area or else to continue the journey on another road—or one of the vehicles does not inevitably leave the convoy as a result of a vehicle defect, for example engine damage, and does not drive at the edge of the road (on the shoulder in the case of the freeway) and stop, it can be assumed that the vehicle convoy is also still moving together on the road or the freeway VKS along the first tracking route SVS 1 . 
     In the expanded cooperative ITS scenario illustrated in  FIG.  2   , in addition to the capture time t 1 , there is also a further time or a further point, the capture time t 2  with the modified second “roadside unit” RSU 2 , for tracking the at least one vehicle in the vehicle convoy FZ 1 , FZ 2 , FZ 3  along the first tracking route SVS 1 . 
     If the convoy with the vehicles FZ 1 , FZ 2 , FZ 3  now approaches the second “roadside unit” RSU 2  and all vehicles (owing to the comparable speed) having the information transmitting device ISE FZ1 , ISE FZ2 , ISE FZ3  corresponding to the vehicle and emitting the information IF FZ1 , IF FZ2 , IF FZ3  corresponding to the vehicle are finally in a second information capture region IEB 2  of a second information capture device IEE 2  of the second “roadside unit” RSU 2 , information IF FZ1,t2 , IF FZ1,t2 , IF FZ3,t2  emitted by the information transmitting devices ISE FZ1 , ISE FZ2 , ISE FZ3  of the vehicles FZ 1 , FZ 2 , FZ 3  at the time t 2  is captured by the second information capture device IEE 2  with parameter data PD FZ1,t2 , PD FZ2,t2 , PD FZ3,t2 . The “roadside units” RSU 1 , RSU 2  with the two information capture regions IEB 1 , IEB 2  are arranged in a manner separated from one another by an arbitrarily selectable distance. In a similar manner to the information capture region IEB in  FIG.  1    and the first information capture region IEB 1 , the second information capture region IEB 2  also again reaches its maximum extent when the information IF FZ1 , IF FZ2 , IF FZ3  emitted by the information transmitting device ISE FZ1 , ISE FZ2 , ISE FZ3  can no longer be received by the second information capture device IEE 2 . 
     Like the first information capture device IEE 1 , the second information capture device IEE 2  captures second information IF 2  with second parameter data PD 2  from the maximum quantity of information predefined at the time t 2  by the information IF FZ1,t2 , IF FZ2,t2 , IF FZ3,t2  with the parameter data PD FZ1,t2 , PD FZ2,t2 , PD FZ3,t2  from a second group GR 2  of the vehicles FZ 1 , FZ 2 , FZ 3 , which again comprises at least one vehicle, but preferably again a plurality of vehicles with the proviso “The greater the number of groups, the easier the correlation of the different parameter data from the information capture region”, at regular intervals of time or for a calculated time window—for example by means of the calculation according to the formula s=v*t (distance equals speed times time), where s=distance between RSU 1  and RSU 2  and v=speed of the vehicle convoy according to the tables (cf. Table- 1 - FIG.  2    to Table- 3 - FIG.  2   ), the time t and by considering “±t” to be the time window—after capturing the first vehicle group GR 1  in the first information capture region IEB 1  for each interval of time or for each time window. When taking into account or stipulating the number of vehicles in the second group GR 2 , said criteria catalog should again be used when selecting the parameters. 
     In the present case, at the time t 2  according to  FIG.  2   , the three vehicles FZ 1 , FZ 2 , FZ 3  again form the second group GR 2  even if the vehicle type is the same contrary to the criteria catalog because, for example, the speed of the vehicles is comparable and the prerequisite that the time stamps of the captured vehicles are close in terms of time and the position of the captured vehicles is adjacent is present (as illustrated in principle in  FIG.  2   ). The information IF FZ1,t2 , IF FZ2,t2 , IF FZ3,t2  emitted by the vehicles FZ 1 , FZ 2 , FZ 3  at the time t 2  with the parameter data PD FZ1,t2 , PD FZ2,t2 , PD FZ3,t2  is the second information IF 2  with the second parameter data PD 2  as a result of the capture affiliation of said vehicles to the second group GR 2  at the time t 2 . 
     During the further performance of the tracking, the second information capture device IEE 2 —like the first information capture device IEE 1 —is designed, preferably again using generally conventional data processing means (for example a hardware unit based on a microprocessor and a memory component and program modules which can be operated and executed as software on the hardware unit), in such a manner that a data profile DP GR2  specific to the second group, in particular a group footprint or a group stamp of the vehicle group, is generated from the captured second parameter data PD 2 . 
     This data profile DP GR2  specific to the second group is then forwarded in the modified second “roadside unit” RSU 2  from the second information capture device IEE 2  to a second communication interface KSS 2  which is connected to the second information capture device IEE 2  and provides the data profile DP GR2  specific to the second group and received from the second information capture device IEE 2  for data evaluation based on a similarity comparison of data profiles. 
     Two comparable variables, the two data profiles DP GR1 , DP GR2 , are now available for this data profile similarity comparison. The first data profile DP GR1  is thus supplied by the first communication interface KSS 1  in the first “roadside unit” RSU 1 , and the second data profile DP GR2  is supplied by the second communication interface KSS 2  in the second “roadside unit” RSU 2 , to a central unit in the form of an evaluation device AWE. The communication interfaces KSS 1 , KSS 2  are connected to the evaluation device AWE for this purpose, wherein the connection may be wireless or wired, for example. 
     In order to perform the data profile similarity comparison, the evaluation device AWE is now designed, preferably using generally conventional means for the data-processing-based comparison of two variables (for example a hardware unit based on a microprocessor and a memory component and program modules which can be operated and executed as software on the hardware unit), in such a manner that the data profile DP GR2  specific to the second group and provided by the second communication device KSS 2  is compared with the data profile DP GR1  specific to the first group and provided by the first communication device KSS 1  using parameter data, in particular from a combination of the parameter data PD 1 , PD 2  within the groups GR 1 , GR 2 . 
     If the data profile similarity comparison carried out in the evaluation device AWE reveals that the correlation between the first parameter data PD 1  and the second parameter data PD 2  is so great that the parameter data PD 1 , PD 2  at least partially correspond, a statement can be made on the successful tracking of the vehicles FZ 1 , FZ 2 , FZ 3  captured in the first group GR 1  along the first tracking route SVS 1  between the two information capture regions IEB 1 , IEB 2 . In this case, the evaluation device AWE produces or generates an item of tracking information SVI and forwards this information to a central monitoring entity ZÜI which is preferably in the form of a traffic control center and to which the evaluation device AWE is connected, for example in a wireless or wired manner. Otherwise, if the correspondence between the parameter data PD 1 , PD 2  is not so great, such a statement is not possible and the tracking information SVI is not generated. 
     The tracking information SVI can preferably be used in the traffic control center or the central monitoring entity ZÜI to broadcast traffic messages or can be used for cooperative ITS traffic systems or traffic telematics systems. 
     Proceeding from the ITS scenario illustrated in  FIG.  1   ,  FIG.  3    shows a second expanded cooperative ITS scenario for tracking at least one vehicle from a multiplicity of vehicles FZ 4  . . . FZ 10  moving on the road or the freeway VKS, in which a statement for tracking is obtained in a local unit. 
     In contrast to the scenario according to  FIG.  2   , seven vehicles—a fourth vehicle FZ 4 , a fifth vehicle FZ 5 , a sixth vehicle FZ 6 , a seventh vehicle FZ 7 , an eighth vehicle FZ 8 , a ninth vehicle FZ 9  and a tenth vehicle FZ 10 —which are buses or automobiles, for example, according to  FIG.  3   , but any other vehicle type, for example truck, motorcycle, bicycle, etc. would also again be possible, are moving at a different speed on the road or the freeway VKS in the direction of movement BWR in this second expanded cooperative scenario. In this case, vehicle convoys having a sometimes different number of automobiles and buses in each vehicle convoy respectively drive past a stationary modified road device SV in the form of a modified “roadside unit” RSU at times t 1 , t 2 , t 3 . A first vehicle convoy comprising three automobiles and one bus, the bus FZ 4  and the automobiles FZ 5 , FZ 6 , FZ 7 , therefore again passes the first modified “roadside unit” RSU 1  at the time t 1 , a second vehicle convoy comprising three automobiles, the automobiles FZ 6 , FZ 7 , FZ 8 , again passes the second modified “roadside unit” RSU 2  at the time t 2 , and a third vehicle convoy comprising three automobiles and one bus, the bus FZ 9  and the automobiles FZ 6 , FZ 7 , FZ 10 , passes a third modified “roadside unit” RSU 3  at the time t 3 . The road device SV or the “roadside unit” RSU 1 , RSU 2 , RSU 3  can again be any desired technical system which belongs to the traffic infrastructure, controls the traffic and/or provides information on the traffic and/or an electronic device which is configured for this purpose and is preferably capable of V2X communication, as already mentioned above. The road devices SV or the “roadside units” RSU 1 , RSU 2 , RSU 3  are passed by the three vehicle convoys in this case along a second tracking route SVS 2  of the road VKS. 
     The second tracking route SVS 2  is also, at the same time, a capture route because each vehicle FZ 4  . . . FZ 10  in the three vehicle convoys preferably transmits or emits an item of information IF FZ4  . . . IF FZ10  corresponding to the vehicle at regular intervals of time, for example every 100 ms, via a radio signal which needs to be captured. For this purpose, each vehicle FZ 4  . . . FZ 10  has an information transmitting device ISE FZ4  . . . ISE FZ10  corresponding to the vehicle which is preferably in the form of the V2X communication unit and is also again integrated in the on-board electronics of the vehicle (for example if the vehicle is a “non-legacy vehicle”) or else is in the form of a vehicle-independent separate device (for example if the vehicle is a “legacy vehicle”). Each item of information of this information IF FZ4  . . . IF FZ10  corresponding to the vehicle contains a multiplicity of parameter data PD FZ4  . . . PD FZ10  which accordingly correspond to the vehicle and belong to information parameters according to the following tables for  FIG.  3    (Table- 1 - FIG.  3    to Table- 7 - FIG.  3   ). 
     Table- 1 - FIG.  3    shows the information IF FZ4  emitted by the vehicle FZ 4  with the associated parameter data PD FZ4 , Table- 2 - FIG.  3    shows the information IF FZ5  emitted by the vehicle FZ 5  with the associated parameter data PD FZ5 , Table- 3 - FIG.  3    shows the information IF FZ6  emitted by the vehicle FZ 6  with the associated parameter data PD FZ6 , Table- 4 - FIG.  3    shows the information IF FZ7  emitted by the vehicle FZ 7  with the associated parameter data PD FZ7 , Table- 5 - FIG.  3    shows the information IF FZ5  emitted by the vehicle FZ 8  with the associated parameter data PD FZ8 , Table- 6 - FIG.  3    shows the information IF FZ9  emitted by the vehicle FZ 9  with the associated parameter data PD FZ9 , and Table- 7 - FIG.  3    shows the information IF FZ10  emitted by the vehicle FZ 10  with the associated parameter data PD FZ10 . 
     
       
         
           
               
             
               
                 TABLE 1 
               
             
            
               
                   
               
               
                 FIG. 3 
               
            
           
           
               
               
            
               
                   
                 Information (IF FZ4, t1 , IF FZ4, t2 , IF FZ4, t3 ) emitted at times (t1, t2, t3) 
               
               
                 Information (IF FZ4 ) emitted by the vehicle (FZ4) with 
                 with parameter data (PD FZ4, t1 , PD FZ4, t2 , PD FZ4, t3 ) 
               
            
           
           
               
               
               
               
            
               
                 data relating to information parameters (PD FZ4 ) 
                 t1 
                 t2 
                 t3 
               
               
                   
               
            
           
           
               
               
            
               
                 (Pseudonymous) identifier ID 
                 =100555 
               
               
                 (Pseudonymous) information certificate ID 
                 =Kv87xc34 
               
               
                 Certificate authority 
                 =certauth212 
               
               
                 Position (WGS84) 
                 =Lat: XX.xxx(t1)/ 
               
               
                   
                 Lon: YY.yyy(t1) 
               
               
                 Time stamp 
                 =dd.MM.yyyy(t1)/ 
               
               
                   
                 HH:mm:ss(t1) 
               
               
                 Type 
                 =Bus 
               
               
                 Direction of travel 
                 =west 
               
               
                 Speed 
                 =120 km/h 
               
               
                 Length 
                 =7.20 m 
               
               
                 Width 
                 =2.35 m 
               
               
                 Optional parameters 
                 =... 
               
               
                   
               
            
           
         
       
     
     
       
         
           
               
             
               
                 TABLE 2 
               
             
            
               
                   
               
               
                 FIG. 3 
               
            
           
           
               
               
            
               
                   
                 Information (IF FZ5, t1 , IF FZ5, t2 , IF FZ5, t3 ) emitted at times (t1, t2, t3) 
               
               
                 Information (IF FZ5 ) emitted by the vehicle (FZ5) with 
                 with parameter data (PD FZ5, t1 , PD FZ5, t2 , PD FZ5, t3 ) 
               
            
           
           
               
               
               
               
            
               
                 data relating to information parameters (PD FZ5 ) 
                 t1 
                 t2 
                 t3 
               
               
                   
               
            
           
           
               
               
            
               
                 (Pseudonymous) identifier ID 
                 =15060607 
               
               
                 (Pseudonymous) information certificate ID 
                 =Fr94Le97 
               
               
                 Certificate authority 
                 =certauth358 
               
               
                 Position (WGS84) 
                 =Lat: XX.xxx(t1)/ 
               
               
                   
                 Lon: YY.yyy(t1) 
               
               
                 Time stamp 
                 =dd.MM.yyyy(t1)/ 
               
               
                   
                 HH:mm:ss(t1) 
               
               
                 Type 
                 =Automobile 
               
               
                 Direction of travel 
                 =west 
               
               
                 Speed 
                 =124 km/h 
               
               
                 Length 
                 =3.55 m 
               
               
                 Width 
                 =1.90 m 
               
               
                 Optional parameters 
                 =... 
               
               
                   
               
            
           
         
       
     
     
       
         
           
               
             
               
                 TABLE 3 
               
             
            
               
                   
               
               
                 FIG. 3 
               
            
           
           
               
               
            
               
                   
                 Information (IF FZ6, t1 , IF FZ6, t2 , IF FZ6, t3 ) emitted at times (t1, t2, t3) with 
               
               
                 Information (IF FZ6 ) emitted by the vehicle (FZ6) with 
                 parameter data (PD FZ6, t1 , PD FZ6, t2 , PD FZ6, t3 ) 
               
            
           
           
               
               
               
               
            
               
                 data relating to information parameters (PD FZ6 ) 
                 t1 
                 t2 
                 t3 
               
               
                   
               
               
                 (Pseudonymous) identifier ID 
                 =477300 
                 =13579 
                 =13579 
               
               
                 (Pseudonymous) information certificate ID 
                 =6p248 
                 =7my035 
                 =7my035 
               
               
                 Certificate authority 
                 =eurp4711 
                 =eurp4711 
                 =eurp4711 
               
               
                 Position (WGS84) 
                 =Lat: XX.xxx(t1)/ 
                 =Lat: XX.xxx(t2)/ 
                 =Lat: XX.xxx(t3)/ 
               
               
                   
                 Lon: YY.yyy(t1) 
                 Lon: YY.yyy(t2) 
                 Lon: YY.yyy(t3) 
               
               
                 Time stamp 
                 =dd.MM.yyyy(t1)/ 
                 =dd.MM.yyyy(t2)/ 
                 =dd.MM.yyyy(t3)/ 
               
               
                   
                 HH:mm:ss(t1) 
                 HH:mm:ss(t2) 
                 HH:mm:ss(t3) 
               
               
                 Type 
                 =Automobile 
                 =Automobile 
                 =Automobile 
               
               
                 Direction of travel 
                 =west 
                 =west 
                 =west 
               
               
                 Speed 
                 =150 km/h 
                 =165 km/h 
                 =148 km/h 
               
               
                 Length 
                 =4.10 m 
                 =4.10 m 
                 =4.10 m 
               
               
                 Width 
                 =2.05 m 
                 =2.05 m 
                 =2.05 m 
               
               
                 Optional parameters 
                 =... 
                 =... 
                 =... 
               
               
                   
               
            
           
         
       
     
     
       
         
           
               
             
               
                 TABLE 4 
               
             
            
               
                   
               
               
                 FIG. 3 
               
            
           
           
               
               
            
               
                   
                 Information (IF FZ7, t1 , IF FZ7, t2 , IF FZ7, t3 ) emitted at times (t1, t2, t3) with 
               
               
                 Information (IF FZ7 ) emitted by the vehicle (FZ7) with 
                 parameter data (PD FZ7, t1 , PD FZ7, t2 , PD FZ7, t3 ) 
               
            
           
           
               
               
               
               
            
               
                 data relating to information parameters (PD FZ7 ) 
                 t1 
                 t2 
                 t3 
               
               
                   
               
               
                 (Pseudonymous) identifier ID 
                 =94633 
                 =382323 
                 =998111 
               
               
                 (Pseudonymous) information 
                 =QK92 
                 =I85r3 
                 =2m1073 
               
               
                 certificate ID 
               
               
                 Certificate authority 
                 =eurp2700 
                 =eurp2700 
                 =eurp2700 
               
               
                 Position (WGS84) 
                 =Lat: XX.xxx(t1)/ 
                 =Lat: XX.xxx(t2)/ 
                 =Lat: XX.xxx(t3)/ 
               
               
                   
                 Lon: YY.yyy(t1) 
                 Lon: YY.yyy(t2) 
                 Lon: YY.yyy(t3) 
               
               
                 Time stamp 
                 =dd.MM.yyyy(t1)/ 
                 =dd.MM.yyyy(t2)/ 
                 =dd.MM.yyyy(t3)/ 
               
               
                   
                 HH:mm:ss(t1) 
                 HH:mm:ss(t2) 
                 HH:mm:ss(t3) 
               
               
                 Type 
                 =Automobile 
                 =Automobile 
                 =Automobile 
               
               
                 Direction of travel 
                 =west 
                 =west 
                 =west 
               
               
                 Speed 
                 =153 km/h 
                 =168 km/h 
                 =153 km/h 
               
               
                 Length 
                 =4.40 m 
                 =4.40 m 
                 =4.40 m 
               
               
                 Width 
                 =2.15 m 
                 =2.15 m 
                 =2.15 m 
               
               
                 Optional parameters 
                 =... 
                 =... 
                 =... 
               
               
                   
               
            
           
         
       
     
     
       
         
           
               
             
               
                 TABLE 5 
               
             
            
               
                   
               
               
                 FIG. 3 
               
            
           
           
               
               
            
               
                   
                 Information (IF FZ8, t2 , IF FZ8, t3 , IF FZ8, t3 ) emitted at times (t1, t2, t3) 
               
               
                 Information (IF FZ8 ) emitted by the vehicle (FZ8) with 
                 with parameter data (PD FZ8, t1 , PD FZ8, t2 , PD FZ8, t3 ) 
               
            
           
           
               
               
               
               
            
               
                 data relating to information parameters (PD FZ8 ) 
                 t1 
                 t2 
                 t3 
               
               
                   
               
               
                 (Pseudonymous) identifier ID 
                   
                 =28112203 
                   
               
               
                 (Pseudonymous) information 
                   
                 =Ho57Mo61 
               
               
                 certificate ID 
               
               
                 Certificate authority 
                   
                 =certauth358 
               
               
                 Position (WGS84) 
                   
                 =Lat: XX.xxx(t2)/ 
               
               
                   
                   
                 Lon: YY.yyy(t2) 
               
               
                 Time stamp 
                   
                 =dd.MM.yyyy(t2)/ 
               
               
                   
                   
                 HH:mm:ss(t2) 
               
               
                 Type 
                   
                 =Automobile 
               
               
                 Direction of travel 
                   
                 =west 
               
               
                 Speed 
                   
                 =126 km/h 
               
               
                 Length 
                   
                 =3.70 m 
               
               
                 Width 
                   
                 =1.95 m 
               
               
                 Optional parameters 
                   
                 =... 
               
               
                   
               
            
           
         
       
     
     
       
         
           
               
             
               
                 TABLE 6 
               
             
            
               
                   
               
               
                 FIG. 3 
               
            
           
           
               
               
            
               
                   
                 Information (IF FZ9, t1 , IF FZ9, t2 , IF FZ9, t3 ) emitted at times (t1, t2, t3) with 
               
               
                 Information (IF FZ9 ) emitted by the vehicle (FZ9) with 
                 parameter data (PD FZ9, t1 , PD FZ9, t2 , PD FZ9, t3 ) 
               
            
           
           
               
               
               
               
            
               
                 data relating to information parameters (PD FZ9 ) 
                 t1 
                 t2 
                 t3 
               
               
                   
               
               
                 (Pseudonymous) identifier ID 
                   
                   
                 =70608090 
               
               
                 (Pseudonymous) information 
                   
                   
                 =Jw65yd23 
               
               
                 certificate ID 
               
               
                 Certificate authority 
                   
                   
                 =certauth321 
               
               
                 Position (WGS84) 
                   
                   
                 =Lat: XX.xxx(t3)/ 
               
               
                   
                   
                   
                 Lon: YY.yyy(t3) 
               
               
                 Time stamp 
                   
                   
                 =dd.MM.yyyy(t3)/ 
               
               
                   
                   
                   
                 HH:mm:ss(t3) 
               
               
                 Type 
                   
                   
                 =Bus 
               
               
                 Direction of travel 
                   
                   
                 =west 
               
               
                 Speed 
                   
                   
                 =118 km/h 
               
               
                 Length 
                   
                   
                 =7.50 m 
               
               
                 Width 
                   
                   
                 =2.30 m 
               
               
                 Optional parameters 
                   
                   
                 =... 
               
               
                   
               
            
           
         
       
     
     
       
         
           
               
             
               
                 TABLE 7 
               
             
            
               
                   
               
               
                 FIG. 3 
               
            
           
           
               
               
            
               
                   
                 Information (IF FZ10, t1 , IF FZ10, t2 , IF FZ10, t3 ) emitted at times (t1, t2, t3) 
               
               
                 Information (IF FZ10 ) emitted by the vehicle (FZ10) with 
                 with parameter data (PD FZ10, t1 , PD FZ10, t2 , PD FZ10, t3 ) 
               
            
           
           
               
               
               
               
            
               
                 data relating to information parameters (PD FZ10 ) 
                 t1 
                 t2 
                 t3 
               
               
                   
               
               
                 (Pseudonymous) identifier ID 
                   
                   
                 =542684 
               
               
                 (Pseudonymous) information 
                   
                   
                 =Hw57Sie86 
               
               
                 certificate ID 
               
               
                 Certificate authority 
                   
                   
                 =eurp46668 
               
               
                 Position (WGS84) 
                   
                   
                 =Lat: XX.xxx(t3)/ 
               
               
                   
                   
                   
                 Lon: YY.yyy(t3) 
               
               
                 Time stamp 
                   
                   
                 =dd.MM.yyyy(t3)/ 
               
               
                   
                   
                   
                 HH:mm:ss(t3) 
               
               
                 Type 
                   
                   
                 =Automobile 
               
               
                 Direction of travel 
                   
                   
                 =west 
               
               
                 Speed 
                   
                   
                 =122 km/h 
               
               
                 Length 
                   
                   
                 =3.45 m 
               
               
                 Width 
                   
                   
                 =1.90 m 
               
               
                 Optional parameters 
                   
                   
                 =... 
               
               
                   
               
            
           
         
       
     
     In the case of the information parameters contained in the tables and the parameter data PD FZ4  . . . PD FZ10  corresponding to the vehicle, a distinction is again made between 
     (i) information parameters and associated parameter data PD FZ4  . . . PD FZ10  which are used to uniquely identify the respective information transmitting device ISE FZ4  . . . ISE FZ10  corresponding to the vehicle as the transmission source of the information IF FZ4  . . . IF FZ10  and therefore ultimately also the respective vehicle FZ 4  . . . FZ 10  and the data values of which, as already stated above, are continuously changed at regular intervals of time (for example in the region of approximately 1 minute) for anonymization purposes—these information parameters and parameter data PD FZ4  . . . PD FZ10  are referred to below as object-identifying information parameters and parameter data PD FZ4  . . . PD FZ10 —and
 
(ii) information parameters and associated parameter data PD FZ4  . . . PD FZ10  which are used to characterize, indicate, type, etc., but not uniquely identify, the respective vehicle FZ 4  . . . FZ 10  in which the information transmitting device ISE FZ4  . . . ISE FZ10  corresponding to the vehicle is situated as the transmission source of the information IF FZ4  . . . IF FZ10  and the data values of which are not changed—these information parameters and parameter data PD FZ4  . . . PD FZ10  are referred to below as non-object-identifying information parameters and parameter data PD FZ4  . . . PD FZ10 .
 
     In said tables, Table- 1 - FIG.  3    to Table- 7 - FIG.  3   , the object-identifying information parameters and parameter data PD FZ4  . . . PD FZ10  are again indicated with gray shading, whereas the non-object-identifying information parameters and parameter data PD FZ4  . . . PD FZ10  again do not have any background shading (for example with respect to a gray scale and/or pattern) (white background in said tables). Said tables each illustrate how the object-identifying parameter data PD FZ4  . . . PD FZ10  at the respective times t 2 , t 3  have changed in comparison with the object-identifying parameter data PD FZ4  . . . PD FZ10  at the time t 1 . 
     The number of information parameters (both with respect to the object-identifying parameters and with respect to the non-object-identifying parameters) respectively contained in the table is fundamentally open and can be increased or decreased in an arbitrary manner again as required. In the present case, the parameters decisive for the exemplary embodiment are stated. The meaning of these stated parameters and their data values are again generally known and therefore do not require any further explanation at this point. When selecting the parameters, it should again be taken into account (criteria catalog) that, for example, preferably
         different vehicle types of the road users, for example bus, automobile, motorcycle, etc., are captured;   the time stamp of the captured vehicles belonging to the road users should be as close as possible in terms of time;   the position of the captured different vehicles belonging to the road users should be as adjacent as possible;   the direction of the captured vehicles belonging to the road users should be as identical as possible;   the speed of the captured vehicles belonging to the road users should be as comparable as possible;   the length of the captured different vehicles belonging to the road users should be used as a (group) identifying feature;   the width of different vehicles belonging to the road users should be used as a (group) identifying feature;   the issuing authority of the cryptographic certificates is used for the signature of the status messages;   certificate hierarchy for validating the certificate is used for the signature of the status messages;   repetition rate of the change of the parameters is used.       

     If the vehicles FZ 4 , FZ 5 , FZ 6 , FZ 7  in the first vehicle convoy having the information transmitting devices ISE FZ4 , ISE FZ5 , ISE FZ6 , ISE FZ7  corresponding to the vehicle and emitting the information IF FZ4 , IF FZ5 , IF FZ6 , IF FZ7  corresponding to the vehicle are in the first information capture region IEB 1  of the first information capture device IEE 1  of the modified first “roadside unit” RSU 1 , information IF FZ4,t1 , IF FZ5,t1 , IF FZ6,t1 , IF FZ7,t1  emitted by the information transmitting devices ISE FZ4 , ISE FZ5 , ISE FZ6 , ISE FZ7  of the vehicles FZ 4 , FZ 5 , FZ 6 , FZ 7  at the time t 1  is captured by the first information capture device IEE 1  with parameter data PD FZ4,t1 , PD FZ5,t1 , PD FZ6,t1 , PD FZ7,t1 . In a similar manner to the information capture region IEB in  FIG.  1   , the first information capture region IEB 1  again reaches its maximum extent when the information IF FZ4 , IF FZ5 , IF FZ6 , IF FZ7  emitted by the information transmitting device ISE FZ4 , ISE FZ5 , ISE FZ6 , ISE FZ7  can no longer be received by the first information capture device IEE 1 . 
     In order to also be able to now again track at least one vehicle in the first vehicle convoy FZ 4 , FZ 5 , FZ 6 , FZ 7  in the second expanded cooperative ITS scenario, in contrast to the cooperative ITS scenario explained above on the basis of  FIG.  1   , the first information IF 1  with the first parameter data PD 1  from the maximum quantity of information predefined at the time t 1  by the information IF FZ4,t1 , IF FZ5,t1 , IF FZ6,t1 , IF FZ7,t1  with the parameter data PD FZ4,t1 , PD FZ5,t1 , PD FZ6,t1 , PD FL7,t1  is captured from a first group GR 1  of the vehicles FZ 6 , FZ 7  in the first vehicle convoy FZ 4 , FZ 5 , FZ 6 , FZ 7 , which comprises at least one vehicle, but preferably a plurality of vehicles with the proviso “The greater the number of groups, the easier the correlation of the different parameter data from the information capture region”. When taking into account or stipulating the number of vehicles in the first group GR 1 , the criteria catalog mentioned above should be used when selecting the parameters. 
     In the present case, at the time t 1  according to  FIG.  3   , the two vehicles FZ 6 , FZ 7  form the first group GR 1  because, even though the vehicle type is also the same here contrary to the criteria catalog, for example, the speed of said vehicles is comparable and the prerequisite that the time stamps of said vehicles are close in terms of time and the position of the captured vehicles is adjacent is present (as illustrated in principle in  FIG.  3   ). The information IF FZ6,t1 , IF FZ7,t1  emitted by the vehicles FZ 6 , FZ 7  at the time t 1  with the parameter data PD FZ6,t1 , PD FZ7,t1  is the first information IF 1  with the first parameter data PD 1  as a result of the capture affiliation of said vehicles to the first group GR 1  at the time t 1 . 
     For the further performance of the tracking, the first information capture device IEE 1  is now again designed, preferably using generally conventional data processing means (for example a hardware unit based on a microprocessor and a memory component and program modules which can be operated and executed as software on the hardware unit), in such a manner that the data profile DP GR1  specific to the first group, in particular the group footprint or the group stamp of the vehicle group, is again generated from the captured first parameter data PD 1 . 
     This data profile DP GR1  specific to the first group is then again forwarded in the modified first “roadside unit” RSU 1  from the first information capture device IEE 1  to the first communication interface KSS 1  which is connected to the first information capture device IEE 1  and provides the data profile DP GR1  specific to the first group and received from the first information capture device IEE 1  for data evaluation based on a similarity comparison of data profiles. How, when and where this data profile similarity comparison takes place is explained further below in connection with the description of  FIG.  3   . 
     In the interim, while the first data profile is generated and forwarded as described, the first vehicle convoy FZ 4 , FZ 5 , FZ 6 , FZ 7  moves further along the second tracking route SVS 2  on the road or the freeway VKS. Since the vehicles FZ 4 , FZ 5 , FZ 6 , FZ 7  in the convoy are moving at a different speed, however, the first vehicle convoy will come apart along the second tracking route SVS 2  and will be reduced to the vehicles at a comparable speed. These are the vehicles FZ 6 , FZ 7  which, as a sub-convoy of the first vehicle convoy, form the first group GR 1 . It can therefore be assumed that, if one of these vehicles does not leave the road or the freeway VKS—for example for a stop at a gas station or a rest area or else to continue the journey on another road—or one of the vehicles does not inevitably leave the convoy as a result of a vehicle defect, for example engine damage, and does not drive at the edge of the road (on the shoulder in the case of the freeway) and stop, the vehicle sub-convoy is also still moving together on the road or the freeway VKS along the second tracking route SVS 2 . 
     In the second expanded cooperative ITS scenario illustrated in  FIG.  3   , in addition to the capture time t 1 , there is also at least one further time or a further point, the capture time t 2  with the modified second “roadside unit” RSU 2  and the capture time t 3  with the modified second “roadside unit” RSU 3 , for tracking the at least one vehicle in the vehicle sub-convoy FZ 6 , FZ 7  along the second tracking route SVS 2 . 
     If the sub-convoy with the vehicles FZ 6 , FZ 7  now approaches the second “roadside unit” RSU 2  and if, in addition to the two vehicles FZ 6 , FZ 7  mentioned, also the vehicle FZ 8  having the information transmitting devices ISE FZ6 , ISE FZ7 , ISE FZ8  corresponding to the vehicle and emitting the information IF FZ6 , IF FZ7 , IF FZ5  corresponding to the vehicle are finally in the second information capture region IEB 2  of the second information capture device IEE 2  of the second “roadside unit” RSU 2  for the second vehicle convoy, information IF FZ6,t2 , IF FZ7,t2 , IF FZ8,t2  emitted by the information transmitting devices ISE FZ6 , ISE FZ7 , ISE FZ8  of the vehicles FZ 6 , FZ 7 , FZ 8  at the time t 2  is captured by the second information capture device IEE 2  with parameter data PD FZ6,t2 , PD FZ7,t2 , PD FZ8,t2 . The “roadside units” RSU 1 , RSU 2  with the two information capture regions IEB 1 , IEB 2  are again arranged in a manner separated from one another by an arbitrarily selectable distance. In a similar manner to the information capture region IEB in  FIG.  1    and the first information capture region IEB 1 , the second information capture region IEB 2  also again reaches its maximum extent when the information IF FZ6 , IF FZ7 , IF FZ8  emitted by the information transmitting device ISE FZ6 , ISE FZ7 , ISE FZ8  can no longer be received by the second information capture device IEE 2 . 
     Like the first information capture device IEE 1 , the second information capture device IEE 2  again captures second information IF 2  with second parameter data PD 2  from the maximum quantity of information predefined at the time t 2  by the information IF FZ6,t2 , IF FZ7,t2 , IF FZ8,t2  with the parameter data PD FZ6,t2 , PD FZ7,t2 , PD FZ8 ,t 2  from a second group GR 2  of the vehicles FZ 6 , FZ 7  in the second vehicle convoy FZ 6 , FZ 7 , FZ 8 , which again comprises at least one vehicle, but preferably again a plurality of vehicles with the proviso “The greater the number of groups, the easier the correlation of the different parameter data from the information capture region”, at regular intervals of time or for a calculated time window—for example by means of the calculation according to the formula s=v*t (distance equals speed times time), where s=distance between RSU 1  and RSU 2  and v=speed of the vehicle convoy according to the tables (cf. Table- 1 - FIG.  3    to Table- 7 - FIG.  3   ), the time t and by considering “±t” to be the time window—after capturing the first vehicle group GR 1  in the first information capture region IEB 1  for each interval of time or for each time window. When taking into account or stipulating the number of vehicles in the second group GR 2 , said criteria catalog should again be used when selecting the parameters. 
     In the present case, at the time t 2  according to  FIG.  3   , the two vehicles FZ 6 , FZ 7  also form the second group GR 2  because, even though the vehicle type is the same contrary to the criteria catalog, for example, the speed of said vehicles is comparable and the prerequisite that the time stamps of said vehicles are close in terms of time and the position of the captured vehicles is adjacent is present (as illustrated in principle in  FIG.  3   ). The information IF FZ6,t2 , IF FZ7,t2  emitted by the vehicles FZ 6 , FZ 7  at the time t 2  with the parameter data PD FZ6,t2 , PD FZ7,t2  is the second information IF 2  with the second parameter data PD 2  as a result of the capture affiliation of said vehicles to the second group GR 2  at the time t 2 . 
     During the further performance of the tracking, the second information capture device IEE 2 —like the first information capture device IEE 1 —is again designed, preferably again using generally conventional data processing means (for example a hardware unit based on a microprocessor and a memory component and program modules which can be operated and executed as software on the hardware unit), in such a manner that the data profile DP GR2  specific to the second group, in particular the group footprint or the group stamp of the vehicle group, is generated from the captured second parameter data PD 2 . 
     This data profile DP GR2  specific to the second group is then again forwarded in the modified second “roadside unit” RSU 2  from the second information capture device IEE 2  to the second communication interface KSS 2  which is connected to the second information capture device IEE 2  and provides the data profile DP GR2  specific to the second group and received from the second information capture device IEE 2  for data evaluation based on a similarity comparison of data profiles. 
     With respect to the expanded cooperative ITS scenario, illustrated in  FIG.  3   , for tracking the at least one vehicle in the vehicle sub-convoy FZ 6 , FZ 7  along the second tracking route SVS 2 , there is now also the capture time t 3  with the modified second “roadside unit” RSU 3 . 
     If the sub-convoy having the vehicles FZ 6 , FZ 7  now approaches the third “roadside unit” RSU 3  and if, in addition to these two vehicles FZ 6 , FZ 7 , also the vehicles FZ 9 , FZ 10  having the information transmitting devices ISE FZ6 , ISE FZ7 , ISE FZ9 , ISE FZ10  corresponding to the vehicle and emitting the information IF FZ6 , IF FZ7 , IF FZ9 , IF FZ10  corresponding to the vehicle are finally in a third information capture region IEB 3  of a third information capture device IEE 3  of the third “roadside unit” RSU 3  for the third vehicle convoy, information IF FZ6,t3 , IF FZ7,t3 , IF FZ9,t3 , IF FZ10,t3  emitted by the information transmitting devices ISE FZ6 , ISE FZ7 , ISE FZ9 , ISE FZ10  of the vehicles FZ 6 , FZ 7 , FZ 9 , FZ 10  at the time t 3  is captured by the third information capture device IEE 3  with parameter data PD FZ6,t3 , PD FZ7,t3 , PD FZ9,t3 , PD FZ10,t3 . 
     Since the vehicle tracking is based on a similarity comparison and the data captured at two measurement points are always compared with one another for this purpose, the third information capture region IEB 3  with the third information capture device IEE 3  with respect to this comparison is a further second information capture region IEB 2  with a further second information capture device IEE 2  which captures further second information IF 2  with further second parameter data PD 2  for a further second group GR 2  of vehicles. Against this background, the following statements which relate to the capture of information at the third time t 3  should be categorized. 
     The “roadside units” RSU 1 , RSU 2 , RSU 3  with the respective two information capture regions IEB 1 , IEB 2  are again arranged in a manner separated from one another by an arbitrarily selectable distance. In a similar manner to the information capture region IEB in  FIG.  1   , the first information capture region IEB 1  and the second information capture region IEB 2 , the further second information capture region IEB 2  (IEB 3 ) again also reaches its maximum extent when the information IF FZ6 , IF FZ7 , IF FZ9 , IF FZ10  emitted by the information transmitting device ISE FZ6 , ISE FZ7 , ISE FZ9 , ISE FZ10  can no longer be received by the further second information capture device IEE 2  (IEE 3 ). 
     Like the first information capture device IEE 1  and the second information capture device IEE 2 , the further second information capture device IEE 2  again captures further second information IF 2  with further second parameter data PD 2  from the maximum quantity of information predefined at the time t 3  by the information IF FZ6,t3 , IF FZ7,t3 , IF FZ10,t3 , IF FZ9,t3  with the parameter data PD FZ6,t3 , PD FZ7,t3 , PD FZ9,t3 , PD FZ10,t3  from a further second group GR 2  of the vehicles FZ 6 , FZ 7  in the third vehicle convoy FZ 6 , FZ 7 , FZ 9 , FZ 10 , which again comprises at least one vehicle, but preferably again a plurality of vehicles with the proviso “The greater the number of groups, the easier the correlation of the different parameter data from the information capture region”, at regular intervals of time or for a calculated time window—for example by means of the calculation according to the formula s=v*t (distance equals speed times time), where s=distance between RSU 1  and RSU 2  and v=speed of the vehicle convoy according to the tables (cf. Table- 1 - FIG.  3    to Table- 7 - FIG.  3   ), the time t and by considering “±t” to be the time window—after capturing the first vehicle group GR 1  in the first information capture region IEB 1  for each interval of time or for each time window. When taking into account or stipulating the number of vehicles in the further second group GR 2 , said criteria catalog should again be used when selecting the parameters. 
     In the present case, at the time t 3  according to  FIG.  3   , the two vehicles FZ 6 , FZ 7  also form the further second group GR 2  because, even though the vehicle type is the same contrary to the criteria catalog, for example, the speed of said vehicles is still comparable and the prerequisite that the time stamps of said vehicles are close in terms of time and the position of the captured vehicles is adjacent is present (as illustrated in principle in  FIG.  3   ). The information IF FZ6,t3 , IF FZ7,t3  emitted by the vehicles FZ 6 , FZ 7  at the time t 3  with the parameter data PD FZ6,t3 , PD FZ7,t3  is the further second information IF 2  with the further second parameter data PD 2  as a result of the capture affiliation of said vehicles to the further second group GR 2  at the time t 3 . 
     During the further performance of the tracking, the further second information capture device IEE 2 —like the first information capture device IEE 1  and the second information capture device IEE 2 —is also again designed, preferably again using generally conventional data processing means (for example a hardware unit based on a microprocessor and a memory component and program modules which can be operated and executed as software on the hardware unit), in such a manner that the further data profile DP GR2  specific to the second group, in particular the group footprint or the group stamp of the vehicle group, is generated from the captured further second parameter data PD 2 . 
     This further data profile DP GR2  specific to the second group is then again forwarded in the modified third “roadside unit” RSU 3  from the further second information capture device IEE 2  to a third communication interface KSS 3  which, by definition, is a further second communication interface KSS 2  which is connected to the further second information capture device IEE 2  and provides the further data profile DP G R 2  specific to the second group and received from the further second information capture device IEE 2  for data evaluation based on a similarity comparison of data profiles. 
     Before it is now stated what happens then with the two data profiles DP GR2 , DP GR1 , it is noted at this point that, as an alternative to the second information capture region IEB 2  described above at the time t 2 , the further second information capture region IEB 3  at the time t 3 , with the modifications described above, can be used to generate the data profile DP G R 2  specific to the second group. 
     In addition, it is also possible (in a modification of the previous description in which the first information capture region IEB 1  is present at the time t 1  and the second information capture region IEB 2  is present at the time t 2 ) for the first information capture region IEB 1  to be used at the time t 2  to generate the data profile DP GR1  specific to the first group and for the second information capture region IEB 2  to be used at the time t 3  to generate the data profile DP GR2  specific to the second group with the corresponding modifications resulting from  FIG.  3   . 
     Irrespective of what is captured at what time, there are now two comparable variables, the two data profiles DP GR1 , DP GR2 , for the data profile similarity comparison discussed. If this data profile similarity comparison is now intended to be carried out in a decentralized manner, that is to say locally, in contrast to the situation according to  FIG.  2   , there are two options provided that a central unit in the form of an evaluation device AWE is included in the first “roadside unit” RSU 1 , in the second “roadside unit” RSU 2  and in the third “roadside unit” RSU 3  for the data profile similarity comparison to be carried out. 
     One option is for the first data profile DP GR1  to be transmitted, via the first communication interface KSS 1  in the first “roadside unit” RSU 1 , to the second communication interface KSS 2  in the second “roadside unit” RSU 2  or to the further second communication interface KSS 2  in the third “roadside unit” RSU 3  by means of a wireless or wired connection, for example, and for the second communication interface KSS 2  in the second “roadside unit” RSU 2  to then supply the two data profiles DP GR1 , DP GR2  to the evaluation device AWE in the second “roadside unit” RSU 2  for the data profile similarity comparison to be carried out or else for the further second communication interface KSS 2  in the third “roadside unit” RSU 3  to then supply the two data profiles DP GR1 , DP GR2  to the evaluation device AWE in the third “roadside unit” RSU 3  for the data profile similarity comparison to be carried out. 
     The other option is for the second data profile DP GR2  to be transmitted, via the second communication interface KSS 2  in the second “roadside unit” RSU 2 , or else for the further second data profile DP GR2  to be transmitted, via the further second communication interface KSS 2  in the third “roadside unit” RSU 3 , to the first communication interface KSS 1  in the first “roadside unit” RSU 1  in each case via a wireless or wired connection, for example, and for the first communication interface KSS 1  to then supply the two data profiles DP GR1 , DP GR2  to the evaluation device AWE in the first “roadside unit” RSU 1  for the data profile similarity comparison to be carried out. 
     Irrespective of which option ultimately takes effect, the evaluation device AWE is again designed, preferably again using generally conventional means for the data-processing-based comparison of two variables (for example a hardware unit based on a microprocessor and a memory component and program modules which can be operated and executed as software on the hardware unit), for carrying out the data profile similarity comparison in such a manner that the provided data profile DP GR2  specific to the second group is compared with the provided data profile DP GR1  specific to the first group using parameter data, in particular from a combination of the parameter data PD 1 , PD 2  within the groups GR 1 , GR 2 . 
     If the data profile similarity comparison carried out in the evaluation device AWE again reveals that the correlation between the first parameter data PD 1  and the second parameter data PD 2  is so great that the parameter data PD 1 , PD 2  at least partially correspond, a statement can be made on the successful tracking of the vehicles FZ 1 , FZ 2 , FZ 3  captured in the first group GR 1  along the first tracking route SVS 1  between the two information capture regions IEB 1 , IEB 2 . In this case, the respective evaluation device AWE in the first “roadside unit” RSU 1 , in the second “roadside unit” RSU 2  or in the third “roadside unit” RSU 3  produces or generates the tracking information SVI and forwards this information to the central monitoring entity ZÜI which is preferably in the form of a traffic control center and to which the evaluation device AWE is connected, for example in a wireless or wired manner. Otherwise, if the correspondence between the parameter data PD 1 , PD 2  is not so great, such a statement is not possible and the tracking information SVI is not generated. 
     The tracking information SVI can then again preferably be used in the traffic control center or the central monitoring entity ZÜI to broadcast traffic messages or can be used for cooperative ITS traffic systems or traffic telematics systems. 
     On the basis of the expanded cooperative ITS scenario for tracking according to  FIG.  2   ,  FIG.  4    shows the influence of dynamically changing affiliations of nine vehicles FZ 01  . . . FZ 09 —a first vehicle FZ 01 , a second vehicle FZ 02 , a third vehicle FZ 03 , a fourth vehicle FZ 04 , a fifth vehicle FZ 05 , a sixth vehicle FZ 06 , a seventh vehicle FZ 07 , an eighth vehicle FZ 08  and a ninth vehicle FZ 09 —driving on the route or the freeway VKS in the direction of movement BWR to the first group GR 1  with respect to the first “roadside unit” with the first information capture region IEB 1   RSU1  and to the second group GR 2  with respect to the second “roadside unit” with the second information capture region IEB 2   RSU2  on the similarity comparison (correlation check) to be carried out during the vehicle tracking according to  FIG.  2   . 
     With respect to the first “roadside unit” with the first information capture region IEB 1   RSU1 , the vehicles FZ 5 , FZ 6 , FZ 8 , FZ 9  belong to the first group GR 1  at an nth time t n , the vehicles FZ 2 , FZ 4 , FZ 5 , FZ 6 , FZ 7  belong to the first group GR 1  at an (n+1)th time t n+1 , and the vehicles FZ 1 , FZ 2 , FZ 3 , FZ 4  belong to the first group GR 1  at an (n+2)th time t n+2 . 
     With respect to the second “roadside unit” with the second information capture region IEB 2   RSU2 , the vehicles FZ 6 , FZ 7 , FZ 8  belong to the second group GR 2  at an mth time t m , and the vehicles FZ 2 , FZ 4 , FZ 5 , FZ 7  belong to the second group GR 2  at an (m+1)th time t m+1 . 
     If the correlation check between the first group GR 1  and the second group GR 2  is now carried out at the respective times, the following correlation values KW result: 
     GR 1 ( t   n )=FZ 5 , FZ 6 , FZ 8 , FZ 9   
     with}=&gt;KW=50% 
     GR 2 ( t   m )=FZ 6 , FZ 7 , FZ 8   
     GR 1 ( t   n )=FZ 5 , FZ 6 , FZ 8 , FZ 9   
     with}=&gt;KW=25% 
     GR 2 ( t   m+1 )=FZ 2 , FZ 4 , FZ 5 , FZ 7   
     GR 1 ( t   n+1 )=FZ 2 , FZ 4 , FZ 5 , FZ 6 , FZ 7   
     with}=&gt;KW=40% 
     GR 2 ( t   m )=FZ 6 , FZ 7 , FZ 8   
     GR 1 ( t   n+1 )=FZ 2 , FZ 4 , FZ 5 , FZ 6 , FZ 7   
     with}=&gt;KW=80% 
     GR 2 ( t   m+1 )=FZ 2 , FZ 4 , FZ 5 , FZ 7   
     GR 1 ( t   n+2 )=FZ 1 , FZ 2 , FZ 3 , FZ 4   
     with}=&gt;KW=0% 
     GR 2 ( t   m )=FZ 6 , FZ 7 , FZ 8   
     GR 1 ( t   n+2 )=FZ 1 , FZ 2 , FZ 3 , FZ 4   
     with}=&gt;KW=50% 
     GR 2 ( t   m+1 )=FZ 2 , FZ 4 , FZ 5 , FZ 7   
     Although the invention has been illustrated and described in greater detail with reference to the preferred exemplary embodiment, the invention is not limited to the examples disclosed, and further variations can be inferred by a person skilled in the art, without departing from the scope of protection of the invention. 
     For the sake of clarity, it is to be understood that the use of “a” or “an” throughout this application does not exclude a plurality, and “comprising” does not exclude other steps or elements.