WO2017043999A1 - Satellite positioning device (variants) - Google Patents

Abstract

The proposed utility model relates to satellite positioning devices. The technical result is that of rendering the possibility of position finding (geolocation) less dependent on the presence/absence and quality of a satellite signal; providing the possibility of position finding by an alternative method; and increasing the working range of a device by means of "combining" WiFi coverage zones and zones with a steady signal from satellite navigation systems, e.g. GPS, Glonass, etc.

Description

 Satellite positioning device (options)

 Technical field

 The proposed utility model relates to satellite positioning devices, in particular to a device informing the user about the location of the device itself, or of the object (object) in which (in the immediate vicinity of which) it is located, using the satellite system (system) to determine its own location navigation, transmitting information about the location and condition of the device’s sensors through the cellular communication channels of GSM operators.

 State of the art

 It is known from the prior art that a device mounted on moving objects that uses a GPS receiver to transmit information about the location of the device to the control center via GSM cellular communication channels (patent EP 0748727, IPC B60R 25/10, published November 27, 2001).

 It is also known that a device mounted on moving objects compares information received via GSM channels about the location of the device with predefined route information and, in case of deviation from it, transmits an alarm message to the control center (US patent 6204772, IPC G08B21 / 00, published on March 20, 2001).

A disadvantage of the known technical solutions is the dependence of the location on the availability of a satellite signal, which leads to the inability to determine the location in the absence or insufficient quality of the satellite signal. The reason for this may be the location of the device under objects and canopies that shield the satellite signal, weather conditions, local technical restrictions and failures of satellite navigation systems. Utility Model Essence

 The problem to which the claimed utility model is directed is to reduce the dependence of the possibility of determining the location (location) on the presence / absence and quality of the satellite signal, providing the possibility of determining the location in an alternative way, using previously known information about the geographical location of WiFi access points, increasing the range of the device , due to the "addition" of WiFi coverage areas and stable signal areas of satellite navigation systems, increasing the reliability of work you devices in areas of local failure of satellite navigation systems.

 In the first embodiment, this technical result is achieved due to the fact that the satellite positioning and positioning device using a satellite navigation system, comprising: a satellite unit connected to a processor unit, which is connected to a GSM unit transmitting device location information via according to the proposed utility model, the processor unit is connected to the scanning unit and determining the MAC address within the radius of its action WiFi access.

 In another embodiment, this technical result is achieved due to the fact that the satellite positioning and positioning device using a satellite navigation system, comprising: a satellite unit connected to a processor unit, which is connected to a GSM unit transmitting device location information via channels cellular communication of GSM operators, according to the proposed utility model, the processor unit is connected to the scanning unit and determine the MAC address in the radius of its action ek WiFi access, as well as the information storage unit about the location of WiFi access points.

An additional feature of the device in the second embodiment is that the information storage unit comprises information only about fixed WiFi access points with a unique address.

 Description of drawings

 The utility model is illustrated by the following drawings.

 The figure 1 presents a structural diagram of a known satellite positioning device.

 The figure 2 presents a structural diagram of the claimed satellite positioning device (for the 1st embodiment), equipped with a satellite unit, a GSM unit, a processor unit and a scanning unit that determines the MAC addresses of WiFi access points within its radius of operation.

 The figure 3 presents a structural diagram of the claimed satellite positioning device (for the 2nd embodiment), equipped with a satellite unit, a processor unit and a scanning unit that determines the MAC addresses of WiFi access points and an information storage unit containing previously known information about geographic location of WiFi access points.

 Utility Model Implementation

 A known device with a structural diagram in figure 1, operates as follows. The device determines the geographical coordinates through the built-in satellite unit (1) (for example, GPS, Glonass and others). Further, information on geographical coordinates and information from sensors is transmitted to the user via GSM cellular communication channels: via SMS messages, or via GPRS / 3G / 4G mobile Internet. For this, all devices of this type include a GSM unit (GSM modem) (3).

The device in the 1st embodiment, with a WiFi MAC address scanning unit, with a block diagram in FIG. 2, determines geographical coordinates using the integrated satellite unit (1) (for example, GPS, Glonass and others). In that In an embodiment, the device for geolocation is not required to include a satellite unit (1). The conditions for switching on the satellite unit are determined by the internal logic of the processor unit (2), user-defined settings and other operating conditions of the device.

 If conditions arise that require an alternative way of determining the location, for example, in case of unsuccessful determination of satellite coordinates, the device activates the WiFi MAC address scan unit (4), determines the MAC addresses of WiFi access points within its radius of operation. Conditions requiring an alternative location are determined by the internal logic of the processor unit (2), user-defined settings, and other operating conditions of the device.

 Further, information about the MAC addresses of WiFi access points, geographical coordinates (if any) and information from sensors are transmitted via the GSM unit (3) via the GSM operator’s cellular communication channels to external services and / or directly to the user.

After transmitting information via cellular communication channels, external services or the user directly searches for geographical coordinates, received MAC addresses in existing, previously compiled databases of correspondence of MAC addresses and geographical coordinates of WiFi access points. Based on the logic that the database contains information on only stationary (fixed) WiFi access points with unique MAC addresses, the geographical coordinates obtained from the database will correspond to the geographical coordinates of the device, within the error equal to the radius of the scan unit. That is, the obtained coordinates will be the geographical coordinates of the device itself, or of the object (object) in which (in the immediate vicinity of it) it is located. Thus, the technical result is achieved, which consists in reducing the dependence of the possibility of determining the location (location) on the presence / absence and quality of the satellite signal, providing the possibility of determining the location in an alternative way, increasing the range of the device, due to the “addition” of WiFi coverage areas and stable zones signal (systems) of satellite navigation, increasing the reliability of the device in areas of local failure of satellite navigation systems.

 The device in the 2nd embodiment, with an iFi MAC address scanning unit and an information storage unit containing previously known information about the geographical location of WiFi access points, with a block diagram in figure 3, determines geographical coordinates using the built-in satellite unit (1) (for example, GPS, Glonass and others). In this embodiment, the device for geolocation is not required to necessarily include a satellite unit (1). The conditions for switching on the satellite unit are determined by the internal logic of the processor unit (2), user-defined settings and other operating conditions of the device.

If conditions arise that require an alternative way of determining the location, for example, in case of unsuccessful determination of satellite coordinates, the device activates the WiFi MAC address scan unit (4), determines the MAC addresses of WiFi access points within its radius of operation. Conditions requiring an alternative location are determined by the internal logic of the processor unit (2), user-defined settings, and other operating conditions of the device.

The search for geographical coordinates obtained by MAC addresses is carried out in the databases of correspondence of MAC addresses and geographical coordinates of WiFi access points. Databases are located in the storage unit for the location information of WiFi access points (5). Based on the logic that the database only collects information about stationary (fixed) WiFi devices (access points) with unique MAC addresses, the geographical coordinates obtained from the database will correspond to the geographical coordinates of the device, within the error equal to the radius of the block scan. That is, the obtained coordinates will be the geographical coordinates of the device itself, or of the object (object) in which (in the immediate vicinity of it) it is located.

Further information ^'about the geographic coordinates to the user through GSM cellular communication: via SMS- messages, or via the mobile Internet GPRS / 3G / 4G. For this, all devices of this type include a GSM unit (GSM modem) (3).

 Thus, the technical result is achieved, consisting in reducing the dependence of the possibility of determining the location (location) on the presence / absence and quality of the satellite signal, providing the possibility of determining the location in an alternative way, increasing the range of the device, due to the “addition” of WiFi coverage areas and stable signal areas (systems) of satellite navigation, increasing the reliability of the device in areas of local failure of satellite navigation systems.

Claims

Utility Model Formula

1. A device for satellite positioning and positioning of an object using a satellite navigation system, comprising: a satellite unit connected to a processor unit, which is connected to a GSM unit transmitting information about the location of the device via cellular communication channels of GSM operators, characterized in that the processor unit is connected with a block for scanning and determining within the radius of its action the MAC addresses of WiFi access points.

2. A device for satellite positioning and determining the location of an object using a satellite navigation system, comprising: a satellite unit connected to a processor unit, which is connected to a GSM unit transmitting information about the location of the device via cellular communication channels of GSM operators, characterized in that the processor unit is connected with a block for scanning and determining the MAC addresses of WiFi access points within its radius of operation, as well as a unit for storing information about the location of WiFi access points.

3. The device according to claim 2, characterized in that the information storage unit contains information only about fixed WiFi access points with a unique address.