DE102017010058A1 - A system and method for communicating GPS data to a communication device - Google Patents

Abstract

The present invention provides a system and method for communicating GPS data to a communication device. The communication device is equipped with a GPS module to receive GPS data. The system includes a secure element and an application module. The secure element is to back up the GPS data. The secure element is configured to receive the GPS data from the GPS module and to securely transmit the GPS data to the application module provided in the communication device, thereby preventing the manipulation of the GPS data.

Description

Field of the invention

The present invention relates to the transmission of GPS data. More particularly, the present invention relates to a system and method for communicating GPS data to a communication device.

Used abbreviations:

UICC - (Universal Integrated Circuit Card) universal card with integrated circuit MNO - (Mobile Network Operator) Mobile operator GPS (Global Positioning System) global positioning system USIM - (Universal Subscriber Identity Module) universal subscriber identification module iUICC - (Integrated UICC) integrated UICC eSE - (Embedded Secure Element) embedded secure element SIM (Subscriber Identity Module) Subscriber identification module SWP - (Single Wire Protocol Interface) Single line protocol interface ! eSIM - Embedded Subscriber Identity Module embedded subscriber identification module e-UICC (Embedded Universal Integrated Circuit Card) embedded universal card with integrated circuit ! e-SIM Embedded Subscriber Identity Module embedded subscriber identification module e-USIM Embedded Universal Subscriber Identity Module embedded universal subscriber identifier module M2M - (Machine to Machine) Machine to Machine

Background of the invention

Typically, a Global Positioning System (GPS) provides geolocalizations and timing information for a GPS receiver. Geolocation information, for example, is used by military, civil, and commercial users worldwide. At present, in the communication devices such as GPS-enabled M2M devices or mobile phones, the location information is not transmitted securely. The GPS module has a direct communication channel for connecting the GPS-enabled communication device to an application module, such as an application processor or wireless modem of the communication device, using a Universal Asynchronous Receiver / Transmitter (UART) asynchronous receiver / transmitter (UART) interface , The GPS data is transmitted in an unsafe manner directly via the UART interface, so that any third party can manipulate or modify the data. For example, hackers can deceive the defense system by providing incorrect location information of their GPS receiver / transmitter.

Therefore, there is a need for secure transmission of GPS data to a communication device that overcomes some or all of the disadvantages of the previous system.

Object of the invention

An object of the present invention is to provide a system and method for securely transmitting GPS data to a communication device.

It is above all the object of the present invention to provide a system and a method for securely transmitting GPS data to a communication device, which prevents the manipulation of GPS data.

It is a primary object of the present invention to provide a system and method for securely transmitting GPS data to a communication device, which may be helpful in tracking the accurate location of the GPS receiver for rescue operations.

Furthermore, it is above all an object of the present invention to provide a system and a method for securely transmitting GPS data to a communication device, which has a low degree of complexity and is easy to operate.

Summary of the invention

The object is achieved by a system as described in the independent claims. Embodiments of the invention are described in the dependent claims. According to the present invention, there is provided a system for securely transmitting GPS data to a communication device. The system is embedded in the communication device. The communication device is equipped with a GPS module, a secure element and an application module. The GPS module communicates with a global positioning satellite to obtain the GPS data. The GPS module is connected to the secure element, wherein the secure element is configured to receive the GPS data from the GPS module and securely transmit the GPS data to the application module, thereby preventing the GPS device from being misled. Data are manipulated as they are sent from the GPS module to the application module.

In the present embodiment, the secure element is a UICC, USIM, SIM, SE, e-UICC, e-SIM, e-USIM, e-SE and the like established in the communication device. The secure element communicates with the GPS module via a single line protocol interface. The single line protocol interface secures the GPS data during the communication process between the secure element and the GPS module.

The GPS data is then transmitted from the secure element to the application module established within the communication device. The secure element communicates with the application module via an ISO 7816 interface. The ISO-7816 interface secures the GPS data during the communication process between the secure element and the application module. Since the communication between the secure element and the application module is secured, the GPS data can not be changed by third parties, thereby preventing the manipulation of the GPS data.

In another embodiment of the present invention, a separate secure element is used to secure the GPS data. This secure element is not used by the mobile device for network authentication. The application module communicates with this secure element to securely transmit the GPS data, thereby preventing the manipulation of the GPS data.

Furthermore, another embodiment is shown, which shows a method for transmitting GPS data to a communication device according to the present invention. In the first step, the GPS module receives the GPS data via GPS satellite communication. To secure the data transmission, the GPS module also sends the GPS data via an interface to a secure element. In particular, the data is transmitted via a single line protocol interface. The secure element then transmits the GPS data to the application module via a secure interface, thereby preventing the manipulation of the GPS data. In this embodiment, the application module includes one or more applications.

According to embodiments of the invention, the application module includes one or more applications that implement business use cases. Such business use cases may be, for example, a mobile payment by performing a payment transaction or collecting loyalty points or the like. In these embodiments, the secure element of the invention ensures that reliable un-manipulated GPS data is provided to the applications in the application module.

Brief description of the invention

• 1 ein Blockdiagramm eines Systems zum sicheren Übermitteln von GPS-Daten an ein Kommunikationsgerät gemäß der vorliegenden Erfindung darstellt, und
• 2 ein Ablaufdiagramm darstellt, das ein Verfahren zum sicheren Übermitteln von GPS-Daten an ein Kommunikationsgerät gemäß der vorliegenden Erfindung zeigt.

The advantages and features of the present invention will become better understood with reference to the following detailed description and claims, taken in conjunction with the accompanying drawings, in which like elements are designated by like symbols and in which:

• 1 FIG. 10 is a block diagram of a system for securely transmitting GPS data to a communication device according to the present invention; and FIG
• 2 Fig. 3 is a flowchart showing a method of securely transmitting GPS data to a communication device according to the present invention.

Detailed description of the invention

The present invention provides a system and method for securely transmitting GPS data to a communication device. The present invention prevents the manipulation of GPS data. In addition, the present invention may also be helpful to track also the exact location of the GPS receiver for rescue operations. Furthermore, the present invention has a low degree of complexity and is easy to operate.

The disclosed embodiments are merely exemplary of the invention, which may be embodied in various forms.

Referring to 1 is a system 100 for safely transmitting GPS data to a communication device 200 represented according to the present invention. The system 100 is in the communication device 200 embedded. The communication device 200 may be a mobile phone or M2M device or a laptop or a tablet phone or an internet of things device. The communication device 200 is with a GPS module 110 , a secure element 120 and an application module 130 Provided.

The GPS module 110 communicates to receive the GPS data with a global positioning satellite. The GPS data may include the location information, time, and the like enough enough to determine the position of the communication device 200 to locate. The GPS module 110 is with the safe element 120 connected. In the present embodiment, the secure element is one in the communication device 200 furnished UICC. Alternatively, the secure element 120 a UICC, USIM, SIM, SE, e-UICC, e-SIM, e-USIM, e-SE and the like. The safe element 120 communicates with the GPS module 110 by means of a single line protocol interface (SWP). The safe element 120 is configured to receive the GPS data via the single line protocol interface from the GPS module. In between, the single line protocol interface secures the GPS data during the communication process. The safe element 120 authenticates the GPS data securely and guarantees the authenticity of the GPS data. It would be obvious to those skilled in the art to provide any other MNO-based connectivity, such as USIM or eSIM or iUICC or eSE, for communicating with the GPS module. In this embodiment, the secure element is also used by a mobile terminal for network authentication.

Referring again to 1 , then the GPS data from the secure element 120 to that in the communication device 200 set up application module 130 over ends. The application module 130 may be an application processor or a wireless modem and the like in a manner obvious to those skilled in the art. The safe element 120 communicates with the application module 130 using an ISO 7816 interface. The ISO 7816 is an international standard for electronic ID cards with contacts, in particular chip cards. The ISO 7816 interface secures the GPS data during the communication process between the secure element 120 and the GPS module 110 , For example, if the application module 130 which needs GPS data, receives the application module 130 the GPS data via the UICC, which is the secure element that guarantees the authenticity of the GPS data. Because the communication between the secure element120 and the application module 130 is secured, the GPS data can not be changed by third parties, whereby the manipulation of the GPS data is prevented.

In a further embodiment of the present invention, a separate secure element 120 used to back up the GPS data. This safe element 120 is not used by the mobile terminal for network authentication. The application module 130 communicates with this secure element 120 to transmit the GPS data securely, preventing the manipulation of GPS data. In this embodiment, the application module includes one or more applications.

In a further aspect of the present invention and as in 2 shown is a procedure 300 for transmitting GPS data to a communication device 200 represented according to the present invention. For brevity, the procedure becomes 300 in connection with the system 100 described.

The procedure begins in step 310 ,

In step 320 The GPS module receives the GPS data via GPS satellite communication.

In step 330 To secure the data transmission, the GPS module sends the GPS data to the secure element via an interface 120 , In particular, the data is transmitted via a single line protocol interface. The single-line protocol interface secures the GPS data during the communication process.

In step 340 also passes the secure element 120 the GPS data to the application module 130 via a secure interface, preventing the manipulation of GPS data. The secure interface is an ISO 7816 interface.

The procedure 300 ends in step 350 ,

The advantages of the present invention are a system 100 and a procedure 300 to provide secure transmission of GPS data to a communication device. The system 100 and the procedure 300 prevent the manipulation of GPS data. Besides, the system can 100 and the procedure 300 Also helpful to track the exact location of the GPS receiver for rescue operations. Furthermore, the system 100 and the procedure 300 a low degree of complexity and are easy to use.

Claims (10)

A system for communicating GPS data to a communication device, the communication device having a GPS module configured to receive GPS data, the system comprising: a secure element configured to receive the GPS data from the GPS module and securely transmit the GPS data to an application module provided within the communication device, thereby preventing the manipulation of the GPS data. The system after Claim 1 where the secure element is a UICC, USIM, SIM, SE, e-UICC, e-SIM, e-USIM or e-SE. The system after Claim 2 wherein the UICC is set up in the communication device. The system after Claim 2 wherein the UICC in the communication device only serves to authenticate the GPS data. The system after Claim 1 wherein the secure element communicates with the GPS module via a single line protocol interface. The system after Claim 1 wherein the secure element communicates with the application module via an ISO 7816 interface. The system after Claim 1 wherein the communication device is a mobile phone or an M2M device or a laptop or a tablet or an internet-of-things device. The system after Claim 1 where the application module is an application processor or a wireless modem. The system after Claim 1 wherein the application module contains one or more applications. A method of communicating GPS data to a communication device, wherein the communication device is configured with a GPS module to receive GPS data, wherein the GPS data is sent by a secure element to an application module located on a communication device to prevent manipulation of the GPS data.

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