WO2009007374A1 - Platform for recording and processing telemetric data - Google Patents

Platform for recording and processing telemetric data Download PDF

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Publication number
WO2009007374A1
WO2009007374A1 PCT/EP2008/058862 EP2008058862W WO2009007374A1 WO 2009007374 A1 WO2009007374 A1 WO 2009007374A1 EP 2008058862 W EP2008058862 W EP 2008058862W WO 2009007374 A1 WO2009007374 A1 WO 2009007374A1
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Patent type
Prior art keywords
data
platform
interface
processing
characterized
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Application number
PCT/EP2008/058862
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German (de)
French (fr)
Inventor
Franziska Lindemeier
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Franziska Lindemeier
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    • GPHYSICS
    • G06COMPUTING; CALCULATING; COUNTING
    • G06FELECTRIC DIGITAL DATA PROCESSING
    • G06F13/00Interconnection of, or transfer of information or other signals between, memories, input/output devices or central processing units
    • G06F13/38Information transfer, e.g. on bus
    • G06F13/382Information transfer, e.g. on bus using universal interface adapter
    • G06F13/385Information transfer, e.g. on bus using universal interface adapter for adaptation of a particular data processing system to different peripheral devices

Abstract

A platform (10; 32; 56) for recording and processing telemetric data, which contains a first interface (25;35;61) for recording and/or receiving measured data detected using a sensor (28;36;64); means (14;48) for converting, storing and/or processing the measured data in some other way in such a manner that the measured data can be processed by external data processing devices (24), and a second interface (21) which can be used to transmit the preprocessed measured data to data processing devices (24). In this case, the first interface (25;35;61) is designed to record and/or receive measured data of a multiplicity of different formats and/or from a multiplicity of different sensors (28;36;64), and the second interface (21) is designed to transmit the preprocessed measured data in a multiplicity of different formats and/or to a multiplicity of different data processing devices (24).

Description

Patent application

Platform for receiving and processing of telemetric data

technical field

The invention relates to a platform for receiving and processing of telemetric

data containing

(A) a first interface for receiving and / or for receiving measurement data, which are detected by a sensor;

(B) means for converting, storage and / or other processing of the measurement data such that the measurement data from the external data processing units can be processed;

(C) a second interface, over which the processed measurement data can be transmitted to data processing equipment.

Such measured data are in particular represents telemetry data are not evaluated in the same device with which the measurement data are recorded. Under interface any type of interface device is understood, of which the

Link is made with one or more transmission paths.

State of the art

Telemetric data is usually recorded by a sensor and evaluated at a different location, for example by means of a suitable data processing program. The results then form the basis for decisions, controllers or the like. The measurement data is transmitted via an interface to a data processing system and evaluated there. An example of such a telemetric data, the measurement data from meteorological stations.

Typically, the data processing programs (applications) for evaluating the measured values ​​from the provider of the sensors are made available. There are also applications to import the data. In this case, the data must be converted into a readable format for the particular application. The different systems require for data processing different user interfaces.

Also, in an application which measuring data of various sensors are processed, different interfaces are provided. So must for example in the building industry at the same heating and ventilation control, recording of electricity, heat, water and gas consumption and the integration of security systems are managed. These different systems with different requirements for data processing and the user interfaces are required.

In the military field or civil defense is a growing need for the detection of biological, chemical and nuclear materials (Nuclear Biological Chemical (NBC) -

Detection). Transportable detection systems are only by specialists to operate and evaluate the data collected only by specialists. The complexity of the screened substances requires constant, ever more intensive and more extensive

Training of the operating personnel of the appropriate analysis technique, which leads to high operating costs.

Disclosure of the Invention

The object of the invention to simplify the recording and processing of telemetry data and make it more economical.

According to the invention, the object is achieved in that (d) the first interface for receiving and / or for receiving measurement data of a plurality of different formats and / or is formed from a plurality of different sensors, and

(E) said second interface for transmitting the processed measurement data in a

is number of different formats and / or formed at a plurality of different data-processing devices.

The invention thus provides a joint for a plurality of users, sensors and applications platform. This platform is the so-called "remote" -

Mode operated. This means that the location of the platform at any location is independent of the location of the sensors and the location of the applications. Of the

Access can for example take place via the Internet. The measuring data can be transmitted independently of the transmission path and regardless of the configuration of the sensors on the platform. There, they are converted to a "standard format", stored and managed in an appropriate manner. In particular, you will

Access rights, storage formats, storage time and the like are managed.

The measurement data is then available in a form, which allows it to be processed with virtually any application. The application no longer has to necessarily be created by the manufacturer of the sensor. Rather, the application can be offered by a company specializing in the analysis of the data application programmers.

The first interface is able to accommodate all the data collected by a sensor and to receive. The measurement data are converted to said platform, stored and / or otherwise processed. They can be processed by external data processing units. The processed data is transmitted via a second interface to the data processing units.

The users of different sensors and / or different applications are no longer dependent on a large number of special interfaces and data-processing platforms. This saves costs and simplifies the recording and processing of telemetric data.

In a preferred embodiment of the invention, the first and / or second interface act together with a plurality of different transmission paths. As

Transmission paths can of example, non-public networks, satellite systems, GSM, CDMA, UMTS, Ethernet, WLAN, ISDN modem,

Analog Modern, facility networks and public networks including mobile, and FixedLine

Internet are called. The choice of transmission paths is left to the user, the provider of sensors and / or the providers of applications.

In a further embodiment of the invention, the platform has a control system for controlling equipment on the basis of the processed measurement data. From the platform conditioned measurement data, the control parameters for a device can be. For example, several heaters can be controlled in different buildings. The control is performed on the basis of measured indoor and outdoor temperatures. The heat output is adapted to the measured values.

In a further preferred embodiment of the invention, measurement parameters and / or control commands are transmitted back to the sensors or the sensors provided actuators. developed from the platform optimization parameters for

Example of the sensors or actuators to be transferred back. This transfer can be made directly from the platform. Alternatively, the transmission of the data processing device via the platform can be done. A transfer directly from the data processing device to the sensor is possible.

For example, one of compared in the platform with the setpoint temperature value of a temperature meter can in an air conditioner in a command for a corresponding

Actuators are converted. The actuators change the cooling or heating capacity corresponding to the transmitted command as a target value.

In a particularly preferred embodiment of the invention, the platform further comprises an interface for changing the processing parameters. A common problem with the usage of sensors is that the user can not use even the sensor or can not interpret even the measured data. This makes specialists needed, but which can not always be on site and are expensive. Another interface to the platform allows one also removed seated specialist or a centralized team of specialists online access to the data of multiple sensors and / or users. The specialist can edit the data suitable.

The user or system can be supplied in the same way with suitable instructions and information. Based on the measurement data z can. B. also be a diagnosis for identified by the telemetry systems disorders. The troubleshooting can be done via forward error correction. Many processes can be supported by specialists automated and qualified, who do not need are on site. The involvement of national and international specialists can be made as needed. Our own staff can also be trained online by the intervention of specialists.

In a further embodiment of the invention, the platform cooperates with a database. A database provides a large amount of information that can be used in support of the processing and optimization of data. The large sample variety of database and from it draggable insights will be able to continually improve the services.

Preferably, the first and / or second interface is used to offer the added Messa data and / or received or processed measurement data can be transmitted to data processing means, embodied as a standard interface to a network. The network can be selected in particular from public networks such as the Internet, landline (FixedLine), mobile communications, satellite-based networks and non-public networks, such as corporate intranet systems. This allows access to the data is almost anywhere, anytime possible.

In a further embodiment of the invention, the first interface of the platform of standard communication paths receives adapted measurement data from the sensors. This means that the interface measurement data receives all standard communication channels. Standard communication channels are the usual means employed for data forwarding such. As non-public networks, satellite systems, GSM, CDMA, UMTS, Ethernet, WLAN, ISDN modem, analog Modern and facility networks. This saves costs and simplifies the transfer of data to process them. The communication options can be extended further characterized in that the data can be processed in several languages ​​and also transmitted. Users of different languages ​​to access the same platform.

This allows access to the platform or the data contained in it is reserved only persons allowed access, the platform is equipped with an access protection. Here the use of password protected logins or ID cards is conceivable, for example.

The platform of the invention can be used in the detection of nuclear, biological and chemical parameters (NBC detection) in particular. This extends to the military field, but also to the civil defense. Soldiers can in good time before such threats. B. Toxic gases will be warned and the military leadership is fully informed about the situation in various combat zones. Comparable is the use in z. As chemical manufacturing plants, where workers and production management and safety devices against threats, for example by gas leakage, be warned and z. As initiated by the platform countermeasures. Other possible areas of the platform according to the invention are e-home systems, mechanical and plant engineering, air conditioning technology, public infrastructure, personal protection,

Deposit monitoring, deadline monitoring of service processes, parking management, water management, maritime infrastructure, machines filling and wind turbines.

Embodiments of the invention are subject of the subclaims. Embodiments are described in detail hereinafter with reference to the accompanying drawings.

Brief Description of the Drawings Fig. 1 shows schematically the use of a platform for telemetry-based

Services

Fig. 2 shows schematically the structure of a telemetry-based services platform for telemetry

Fig. 3 shows schematically the global communication between users and

Specialists via a telemetry platform at the NBC detection

4 is a representation of the platform in general form

Figure 5 illustrates the various components of the platform of FIG. 4

Figure 6 illustrates the use of a platform in support of civil protection

Figure 7 illustrates the use of a platform in the hospital sector

Description of Embodiments

In Fig. 1 a telemetry platform is indicated by 10. The platform 10 is operating in the "Remote" mode, that is, remotely. This platform 10 contains databases 12 and a data processing unit 14 for execution of algorithms and methods. Applications 16 and an internal platform 18 for specialist services are also provided in the platform 10 . between the databases 12 and the

Unit 14 a data exchange via a bidirectional transmission path 20. The database 12 is powered via the transmission line 20 with new data. The algorithms and methods used in the processing unit 14 use data from the database 12. The data leaves the telemetry platform 10 on the one hand via an interface 21, via a bidirectional transmission path 22 to transfer the data via the interface 23 to the user or customer 24th the user utilizes to communicate with the platform 10 z. B. his mobile phone 29, a PC 31, a laptop 33 or an Internet 37. The data is transferred from the platform 10 via the interface 25 and bi-directional transmission paths 26 from and to the telemetry systems of customers 28, data providers, 30th

The data provider 30 provide data to extend and / or correction of the databases 12, which may be useful for the measurement data in the evaluation further. Furthermore, data 16 may be provided for engagement with the algorithms / procedures 14 and applications.

Telemetry systems of customers 28 (sensors) can be, for example, NBC detection equipment, facility systems, heating systems with temperature sensors above, systems for property monitoring systems for recording vital data or transaction data, etc.. For example, a person wears several different sensors that record nuclear, biological and chemical measurements. The thus obtained

Measurement data is in different formats and leave the respective telemetry device via an on-device interface.

The data collected and from the telemetry device 28 transmitted are received or received via a common interface 25 of the platform 10 degrees. There, they are stored in the database 12, processed in the processing unit 14 and used in applications sixteenth

Optionally access specialists over a transmission path 27 from the platform 18 to the data, analyze the data and develop suitable applications, which are sent as data flow 22 in various formats to multiple users.

A possible use is the building industry (Facility Management). Numerous telemetry devices from different manufacturers and in different buildings draw temperature, humidity, electricity, water, Space heat and gas consumption. The values ​​can be taken from the platform via the interface 25th It is no longer for each telemetry unit a separate interface needed. The one or more users can use all of their systems unterschiedlichster manufacturers under a single web-based interface. The systems can also be controlled consistently by the platform. The common storage and documentation of the data of a plurality of users and sensors.

Also a private users would thus be in a position to manage his "home" (E-home) on a single platform. It can proceed with only one interface 25 to the platform 10 all its data from a centralized processing. It can simultaneously his

Heating regulate, monitor the locking status of the garage, control the irrigation system, personal vital data document (eg. As heart rate, blood pressure,

Blood sugar), locate his car, etc. The web-based telemetry platform provides the necessary standardization to provide for the user interface. This allows the

Communication of a wide range of different technical systems with the

Telemetry platform.

In FIG. 2, a telemetry platform is generally designated 32. The platform 32 communicates via a data flow 34 with a plurality of external telemetry systems

36, for example sensors, actuators and terminals. The sensors 36 provide on their respective sensor of interface data that are transferred to a suitable transmission path 34 via the interface 35 to the platform 32nd There they will cycle to a communication server 38. The communication server 38 receives the data from different sources and / or different format via an interface

40, can receive the data of different formats and different communication channels. At this interface, a security area (Security) 42 connects. This safety margin 42 protects the platform 32 on the one hand against viruses, Trojans, attacks on the system, etc. On the other hand, he managed with a digital rights management (DRM) access permissions of users of the platform 32nd

This management locks or unlocks the access rights of users. It can, for users. B. inform about security risks or access rights. It can themselves and the users from unwanted data protection (SPAM). These data are analyzed and suitable (not shown) through the filter order.

Access to the platform 32 is protected by signatures (z. B. codewords). The data pass through this access-protected security area 42. After authorization in the data in a normalization unit 44 supported by the original communication formats in the kernel by the system of the processing unit 48 of the platform 32 formats are converted. The communication server 38, the normalized data is transferred via a bidirectional transmission path 46 in the data processing unit 48 which processes the data by means of algorithms / procedures. This unit 48 interacts with databases 50, 52 applications and various administrative units 54. The database 50 to manage the user master data, various contents and make the documentation of the history of such. B. Content activities, user activity and service catalogs. The databases 50 contain all the service providers and the services offered.

Provided further provides the use of filters for structuring the data, and the use of a moderated reference work in the manner of Wikipedia (http://www.wikipedia.de). In addition to internal databases, it is possible to external databases (eg. As GIS, database of hazardous substances) access. The unit 48 processes the data from the telemetry systems 36 with algorithms and functions suitable. Are available analysis tools and reporting tools and standard interfaces. The public and non-public product documentation is handled by appropriate functions. In addition to standard algorithms, there are specialized functions. In the processing unit events (events) verschiedenster typology can be treated. Formatted data can also use the

Weg 46 sent as a correction parameter or control commands through the communication server 38 back to the telemetry systems.

The platform includes several administrative units 54. These units manage, for example, users, services and service providers. These include

Registration procedures such as login and password management. For the targeted user support and resource and service management, the interests of the user and their profile will be saved. In addition, a shop can be managed, which provides services for sale. The use of the platform may be a fee and offers through the shop their services or

Products with an appropriate presentation to. The user can buy the desired services through a shopping cart. To manage this process, an order processing is necessary, ranging from ordering, through payment for shipping. Serves a billing and accounting system. Integrated is also the management of the complaint will, returns, etc. Payment can be made via mobile payment, electronic debit, credit card, PayPal, Premium SMS, Premium MMS for example. can be integrated recommendation systems, bonus systems, discount schemes and other services. The management units 54 can tools

Product marketing included. They make the management of user classes, the Shopppreise, attracting partners / users and of course the Portal self-promotion. These data about users, prices, etc. allow targeted, tailored to the needs of power generation, shop and sales catalogs. Also provided is a controlling area with corresponding analysis and

Reporting tools and security features at z. As the data transfer.

An important part of the platform 32 is communication with users. Here are many models imaginable. The communication can be via GUI (Graphical User Interface) -Formatvorlagen, forums, chats, RSS feeds, polls, newsletters,

carried advertising systems and upload / Downlowd or forwarding of content. The posting comments is conceivable as active reporting. The system can also offer a call center as a customer service. So the communication with the platform is also possible on vocal tract. Communication can also be customized by individual formats, cross-thematic favorites, individual logos, blogs, email accounts, their own pages or guest books.

The management of the platform 32 also provides system updates, backups, the analysis of content in terms of their monitoring, blocking and release reporting all portal elements, the router, server, and operating resource management. to

Maintaining system quality can be integrated a maintenance management.

The platform can generally collect data, analyze data, evaluate and document. Based on these data processes can be initiated, customers are advised, customers are trained and products

Services are marketed. The simple system allows a quick start in the use of unknown services. The service system described above is used, for example in the warehouse management or parking management. Free storage or parking are determined and passed on to the platform, which in turn can assign these free courses goods or cars.

In Fig. 3 a telemetry platform is designated 56. The telemetry platform is configured as an intranet. 58 specialists communicate with the platform 56 and change the data to be processed there suitable. The processed data applications 60 are generated. The platform 56 receives its data via networks 62 public (eg. As satellite-based networks, mobile communications, FixedLine, Internet) and non-public

Art. The z. B. NBC detectors 64 recorded data are depending on the manufacturer of the detector and the device-specific adjustments of different formats. In a normalization unit 66 is the format of the standard modes of communication, such as non-public networks, satellite, GSM, CDMA, UMTS, Ethernet, WLAN, ISDN modem, analog Modern, facility networks, adjusted. The so-adjusted data get into the

Networks 62 which cooperate with the platform 56 via the interface 61st There, the data determined by specialists are evaluated. Various portable detectors for nuclear, biological or chemical substances need to not be operated by professionals. The user requires no special knowledge to operate the machine and to analyze the data. The data are taken from the platform and processed there by existing algorithms / methods or processed online via a network by a specialist 58th This takes you with the necessary instructions back to the user, who only has to perform this. Even semi-skilled persons can operate the NBC-detection system like this. Also consider an operation and service is without its own employees. The use of self-learning

Systems within the platform 56 and the analysis of very large data sets can be used to improve the analysis technique. This achieves the use of improved analysis parameters, methodologies and procedures.

The transfer of measurement data to the web-based platform 56 may be continuous, event-driven or carried on demand. The system can be analyzed continuously and thus allows an active Service Management. Potential applications for the system described above is the clinical assessment of patients. A jogger, for example, carry a heart rate monitor, a blood pressure meter, a meter for blood glucose levels and a measuring instrument itself. The platform receives all data transmitted by the devices and possibly other data from other joggers and compares them to reference values. For critical

Values ​​of joggers can be notified by a command to an alarm device has a health threat. If the jogger itself not to act in a position, the platform can notify the nearest assistance facility by knowing the position of the jogger, which can be notified using the vital signs of the jogger.

Dienstleistungsservice systems can detect with a platform of the type described above, data at a plurality of customers and detect the availability of their technicians and craftsmen and spare parts in bearings, and bases known. This makes it possible to respond to repair requests quickly and accurately. Service processes can be professionally coordinated. The monitoring at the systems and processes are subject to continuous documentation.

In addition to telemetric data and data from other databases can be used. This is illustrated in FIG. 4 The platform 100 normalizes the invited streams and makes them available in standard formats for evaluation and / or

Query ready. Evaluating applications 102 access to the data of the platform 100th Providing applications 104 feed the platform with data streams. supplying

Applications can also be databases in addition to sensors. A connector 106 allows the treatment each.

With the arrangement, the optional link any information from any source possible. The development of standard applications to use the arrangement allows commercial application development by third parties and the private, public and commercial application usage. The structure and

Marketing of value-added services is a web-based platform. With the arrangement, the platform, technology and location-independent availability of information is possible. This allows users without media world to generate and analyze information on networked to link. The information may be received via a measuring system or be generated from a database. Figure 5 shows an embodiment with sensors, actuators and systems 108, which are verküpft via the Internet 110 with the platform. Also users 112 access to the Internet 110th The arrangement further employs means for data communications and data storage functions 114. It is also a user database 116 are provided.

The arrangement allows the mobile recording and central evaluation of stored data. To achieve this, developing and providing a web-based

Receives the data technology any source, processed, and represents forwards.

Further, it is provided a system for interface management of

Platform. The aim of the arrangement is the mobile recording and the central evaluation of stored data. Here provides technologies that ensures the platform technology and location-independent availability of information. This allows users of the platform can network information without media breaks and evaluate verküpfen and produce.

In an extended embodiment personalized and people based on specific areas services can be developed and offered. The

Data platform can be provided and is therefore to be multilingual world.

In a further embodiment of a development allows full access to the functionality of the platform and allows the creation of independently operating applications for the management of the platform. Running times are encapsulated applications running ability on the platform.

6 illustrates an example of application based on the civil protection. When disaster strikes, extensive packages of measures are to be implemented quickly and efficiently.

Typical tasks here are the shipments of material and auxiliary personnel to the locations, the optimal use of treatment centers in hospitals for rapid initial and emergency assistance to injured persons, the maintenance of transparent communication, the information from those affected, and enabling of fast decision-making. Here, resource data 118, transmit environmental data 120 and workflow data 122 via interfaces 124 an IT portal with databases 126th Applications 128 are supplied with this information. This skill gaps can be identified and filled,

Planning done and scenarios are built and measures to manage and control are taken. The approach to better address the problems lies in the creation of an IT portal for civil protection. Various databases are consolidated via interfaces 124 and feed a variety of services in applications- dice. An IT portal can in

Disaster thus supports both preventive and situational. Examples of supports are the determination of a qualified workers and emergency personnel and their profiles, the calculation of vehicle capacity profiles in the inventory, distribution algorithms to establish a nationwide presence, consolidated and coordinated request of emergency personnel and equipment, documentation for the current location of emergency personnel and equipment, for example by telematics services and the feeding of environmental data.

7 illustrates an example of application in the hospital sector. The aim of the application is to create an infrastructure to improve the internal organization and

Increasing the therapeutic safety in hospitals. The approach includes the

Providing various application modules on the platform. The

Application modules cover the areas of resource management and controlling,

Know-how spread and the patient record from. The precise planning and accounting personnel and other resources lead to performance-case settlement, and allows benchmarking.

In an extended embodiment of know-how networks are provided. Here, a data pool and communication networks allows access to proven results. Specialists supply the pool with findings Inquiring obtain reliable results. This therapy increases safety. An extension includes the electronic patient record. Here, reports and recipes are fed tracked appointments, conducted telemetric recordings of patient data, medical information provided by the patient and approved. This unnecessary examinations be reduced and enables the timely access to all patient information.

The applications are for different interest groups of concern: hospitals, doctors, professionals and patients. All groups access to databases or parts of databases that run in different processes. The objective is to provide a unified data platform 138 that maps a corresponding data storage and access rights of the prospective interfaces 136th Holding stocks of valid technical information, increasing the therapeutic safety and transparent planning and billing can thus be handled in one system.

Claims

claims
1. A platform (10; 32; 56) for receiving and processing data comprising
(A) a first interface (25; 35; 61) for receiving and / or for the reception of
Data and / or telemetric measurement data;
(B) means (14; 48) for converting, storage and / or other processing of the data and / or measured data so that the data from external data processing units (24) are processed;
(C) a second interface (21) via which the processed data can be transmitted to data processing means (24);
characterized in that
(D) the first interface (25; 35; 61) for receiving and / or for receiving data and / or measurement data of a plurality of different formats is formed, and
(E) is formed, the second interface (21) for transmitting the processed data and / or data in a variety of different formats and / or to a plurality of different data-processing means (24).
2. Platform according to claim 1, characterized in that the data comprise measurement data by a sensor (28; 64; 36) are detected and the first interface for receiving and / or for receiving data and / or measurement data of a plurality of different formats is formed and / or from a plurality of different sensors (64 28;; 36).
3. Platform according to claim 1 or 2, characterized in that the first and / or second interface (25; 35; 21; 61) (22,26; 34; 62,66) having a plurality of different transmission paths cooperates.
4. Platform according to one of the preceding claims 2 or 3, characterized by a control system for controlling equipment on the basis of the processed measurement data.
5. Platform according to one of the preceding claims 2 to 4, characterized in that the measurement parameters and / or control commands to the sensors
(28; 36; 64) and provided on the sensors actuators are retransmitted portable.
6. Platform according to one of the foregoing claims, characterized in that the platform has an interface (27) to change the processing parameters.
cooperates; 7. Platform according to one of the preceding claims, characterized in that the platform with a database (50 12).
8. Platform according to one of the preceding claims, characterized in that the first and / or second interface (25; 35; 21; 61), via which added the Dateb and / or received or processed data can be transmitted to data processing equipment is formed as a standard interface to a network.
9. A platform according to claim 7, characterized in that the network is selected from public networks such as Internet, FixedLine, mobile telephony, satellite-based networks and non-public networks such as Intranet.
10. Platform according to one of the preceding claims, characterized in that the first interface (25; 35; 61) adapted to standard communication paths measurement data from sensors (28; 36; 64) receives.
11. Platform according to one of the preceding claims, characterized in that the platform (10; 32; 56) is provided with an access protection.
12. Use of the platform according to one of the preceding claims in the NBC detection.
13. A method for receiving and processing of telemetric data, comprising the steps of:
(A) acquiring data of a plurality of different formats and / or
Measurement data of a plurality of different sensors (28; 36; 64);
(B) receiving and / or receiving the data and / or measurement data via a first interface (25; 35; 61),
(C) forwarding the data and / or measurement data to a platform (10; 32; 56), (d) converting, storing and / or otherwise processing the data, and / or
Measurement data on the platform for processing by external data processing means (24);
(E) transmitting the processed data and / or measurement data via a second interface (21) in a plurality of different formats and / or to a plurality of different data-processing means (24).
PCT/EP2008/058862 2007-07-09 2008-07-08 Platform for recording and processing telemetric data WO2009007374A1 (en)

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EP2320287A1 (en) * 2009-11-05 2011-05-11 Siemens Aktiengesellschaft Monitoring system and method for monitoring the state of a technical installation

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