DE102016217517B4 - Monitoring unit for recording and storing environmental parameters of a transport good as well as a system with and an operating method for the monitoring unit - Google Patents

Abstract

Monitoring unit (10) for recording and storing environmental parameters (16) during the transport of a transport good (100), with a processing unit (20) and a first, wireless communication unit (30), the processing unit (20) being set up by means of the first communication unit (30) to receive at least one piece of transport information (33), and wherein the processing unit (20) is set up to use the transport information (33) to check whether an air transport of the transport goods (100) is planned, characterized in that the processing unit (20) is set up to put the first communication unit (30) from a transmission and reception state into a pure reception state when an air transport is planned, and that the processing unit (20) is set up to transmit a transmission signal (36) in the reception state the first communication unit (30) and receiving the e-signal (36) the e rste communication unit (30) to put back in the transmit and receive state.

Description

State of the art

The invention is based on a monitoring unit for recording and storing environmental parameters during the transport of a transport good with a processing unit and a first, wireless communication unit. The processing unit is set up to receive at least one piece of transport information by means of the first communication unit. In addition, the processing unit is set up to use the transport information to check whether an air transport of the goods to be transported is planned.

Such a monitoring unit is for example in the published patent application WO 2013165847 A1 disclosed. Transport information is recorded in this document and, depending on the transport information, a time period is determined in which the monitoring unit is to be switched from a normal state to an alternative state in which the wireless communication unit is switched off. After the previously determined period of time has elapsed, the communication unit is finally reactivated. This is to prevent the communication unit from being active during air transportation.

The invention also relates to a system with a monitoring unit according to the invention and a method for adapting the state of the wireless communication unit of the monitoring unit.

Disclosure of the invention

The invention is based on a monitoring unit for recording and storing environmental parameters during the transport of a transport good with a processing unit and a first, wireless communication unit. The processing unit is set up to receive at least one piece of transport information by means of the first communication unit. In addition, the processing unit is set up to use the transport information to check whether an air transport of the goods to be transported is planned.
The essence of the invention is that the processing unit is set up to set the first communication unit from a transmission and reception state to a pure reception state when an air transport is planned, and that the processing unit is set up to transmit a transmission signal in the reception state by means of the to receive the first communication unit and to put the first communication unit back into the transmission and reception state when the transmission signal is received.
It is advantageous here that the first wireless communication unit does not emit any signals during the air transport in the pure receiving state, as long as it is not asked to switch back to a transmitting and receiving state. This request to change the state of the communication unit to the send and receive state can take place after the air transport from the outside.
The transmission of signals during an air transport could, for example, lead to a disruption of the radio traffic, which in turn could impair the safety of the flight. By means of the invention, the determination of the aviation authority, in particular, that no wireless signals from objects on board may be emitted during the air transport can thus be complied with. In addition, the monitoring unit in the pure reception mode, which is present during the air transport, has only a low energy consumption, as a result of which the monitoring unit can achieve an extended operating time, for example.

An advantageous embodiment of the invention provides that the processing unit is set up to compare a code of the transmission signal with a stored code and, in the event of a match, to put the first communication unit into the transmission and reception state.

It is advantageous here that only an authorized user can put the communication unit back into a send and receive state. This protects against tampering and incorrect operation, which can increase security for compliance with the regulations of the aviation authority.

The invention also relates to a system with a monitoring unit according to the invention, the system having an external device which is set up to acquire the transport information and to transmit it by means of a second, wireless communication unit. It is advantageous here that the user does not have to switch the wireless communication unit on and off manually, for example using a switch, in particular since the goods to be transported are not always directly accessible with the monitoring unit. Rather, the state adaptation of the communication unit of the monitoring unit can be conveniently controlled using the external device.

According to an advantageous embodiment of the system according to the invention, it is provided that the external device has an input unit for recording the transport information by a user.
It is advantageous here that the user can specify whether an air transport is planned or not. This is a very simple way of capturing the transport information.

According to a further advantageous embodiment of the system according to the invention, it is provided that the monitoring unit has an identifier, the external device being set up to read the identifier and to call up the transport information in an external network on the basis of the identifier read.
It is advantageous here that the human error susceptibility to providing incorrect transport information can be reduced. This in turn increases the certainty that no signals are emitted during the air transport.

1. a. Empfangen wenigstens einer Transportinformation des Transportguts, mittels einer ersten, drahtlosen Kommunikationseinheit der Überwachungseinheit,
2. b. Prüfen anhand der Transportinformation, ob ein Lufttransport geplant ist, mittels einer Verarbeitungseinheit der Überwachungseinheit,
3. c. Versetzen der ersten Kommunikationseinheit von einem Sende- und Empfangszustand in einen reinen Empfangszustand, wenn ein Lufttransport geplant ist,
4. d. Empfangen eines Aussendesignals mittels der ersten Kommunikationseinheit,
5. e. Versetzen der ersten Kommunikationseinheit in den Sende- und Empfangszustand.

The invention also relates to a method for operating a monitoring unit for recording and storing environmental parameters during the transport of a transport good, with the following method steps:

1. a. Receiving at least one piece of transport information for the goods to be transported, by means of a first, wireless communication unit of the monitoring unit,
2. b. Checking on the basis of the transport information whether an air transport is planned by means of a processing unit of the monitoring unit,
3. c. Moving the first communication unit from a transmission and reception state to a pure reception state if air transport is planned,
4. d. Receiving an emission signal by means of the first communication unit,
5. e. Put the first communication unit in the transmit and receive state.

It is advantageous here that the first wireless communication unit does not emit any signals during the air transport in the pure receiving state, as long as it is not asked to switch back to a transmitting and receiving state. This request to change the state of the communication unit to the send and receive state can take place after the air transport from the outside.
The transmission of signals during an air transport could, for example, lead to a disruption of the radio traffic, which in turn could impair the safety of the flight. By means of the invention, the determination of the aviation authority, in particular, that no wireless signals from objects on board may be emitted during the air transport can thus be complied with. In addition, the monitoring unit in the pure reception mode, which is present during the air transport, has only a low energy consumption, as a result of which the monitoring unit can achieve an extended operating time, for example.

In an advantageous embodiment of the method according to the invention it is provided that before the method step e a procedural step f takes place, in which it is checked whether the transmission signal has a code that matches a code stored in the monitoring unit, and if this is the case, with the method step e is continued.

It is advantageous here that only an authorized user can put the communication unit back into a send and receive state. This protects against tampering and incorrect operation, which can increase security for compliance with the regulations of the aviation authority.

According to an advantageous embodiment of the method according to the invention, it is provided that before the method step a a procedural step G runs, in which the transport information is recorded by means of an external device and transmitted by this external device by means of a second communication unit.
It is advantageous here that the user does not have to switch the wireless communication unit on and off manually, for example using a switch, in particular since the goods to be transported are not always directly accessible with the monitoring unit. Rather, the state adaptation of the communication unit of the monitoring unit can be conveniently controlled using the external device.

According to a further advantageous embodiment of the method according to the invention, it is provided that the transport information in the method step G is detected by user input using an input unit of the external device.
It is advantageous here that the user can specify whether an air transport is planned or not. This is a very simple way of capturing the transport information.

According to a further advantageous embodiment of the method according to the invention, it is provided that the transport information in the method step G is detected by reading in an identifier of the monitoring unit by means of the external device and then using the read-in identifier in an external network to call up the transport information by means of the external device.
It is advantageous here that the human error susceptibility to providing incorrect transport information can be reduced. This will in turn increases the security that no signals are emitted during the air transport.

Figure list

• 1 shows an embodiment of a system according to the invention with a monitoring unit according to the invention for detecting and storing environmental parameters of a transport good.
• 2nd shows a first embodiment of an operating method according to the invention of a monitoring unit for detecting and storing environmental parameters of a transport good.

Description of exemplary embodiments

1 shows a first embodiment of a system according to the invention with a monitoring unit according to the invention for detecting and storing environmental parameters of a transport good. A transport good is shown 100 , on which a monitoring unit 10th for recording and storing environmental parameters 16 during the transport of the cargo 100 is attached. The cargo 100 can be a package or a container, for example. The monitoring unit 10th assigns to the recording and storage of environmental parameters 16 at least one sensor unit 15 , a storage unit 17th and a processing unit 20th , which can be configured, for example, as a microcontroller. The sensor unit 15 and the storage unit 17th are each with the processing unit 20th connected in such a way that the processing unit 20th the environmental parameters 16 by means of the sensor unit 15 capture and in the storage unit 17th save and again from the storage unit 17th can read out. The sensor unit 15 can be configured, for example, as an acceleration sensor, temperature sensor or moisture sensor. Depending on the type of sensor unit, the monitoring unit can alternatively only be placed in the goods to be transported. Any combination of different sensor units is of course also conceivable. The recorded environmental parameters are corresponding 16 for example acceleration values, temperature values or also moisture values. From these environmental parameters 16 can after the transport of the cargo 100 conclude whether the goods to be handled properly 100 has occurred during transport, e.g. B. whether the guideline values for the temperature were observed or whether the goods to be transported 100 was dropped. The monitoring unit 10th also has a first, wireless communication unit 30th on. The first communication unit 30th is with the processing unit 20th connected and can be configured, for example, as a Bluetooth or WLAN unit. In addition, the processing unit 20th set up to include at least one transport information 33 of the cargo 100 as well as an outgoing signal 36 by means of the communication unit 30th to receive as well as the recorded environmental parameters 16 by means of the communication unit 30th send out. The transport information 33 contains the information whether an air transport of the cargo 100 is planned during the coming transport. Furthermore, the system points 1 an external device 50 on. The external device 50 can be a user's cell phone, for example. The external device 50 has a second wireless communication unit 60 as well as an input unit 70 on. The input unit 70 is set up for the at least one transport information 33 and the command to send the send signal 36 capture. The input unit 70 For this purpose, for example, it can be designed as a touch display, by means of which the user can directly indicate whether an air transport of the transport goods 100 is planned or not. In addition, the user can use this to send out the signal 36 give when he is the first communication unit 30th the monitoring unit 10th after the air transport wants to put back in a send and receive state to the environmental parameters 16 to be able to read out. The second communication unit 60 is therefore set up to record the recorded transport information 33 as well as the transmission signal 36 send out.
To control the second communication unit 60 and the input unit 70 assigns the external device 50 typically still another processing unit, not shown.

In an alternative, not illustrated embodiment, the transport information 33 not by means of the input unit 70 detected. Instead, the external device is set up to identify the monitoring unit 10th and import the transport information based on the identifier 33 of the cargo 100 in an external network. Such an external network can be, for example, a server of the transport company, on which the transport information 33 of the cargo 100 is deposited. The identifier can be, for example, a digital signature or a barcode, the identifier of the monitoring unit 10th for transport firmly with the cargo 100 is linked to from the identifier of the monitoring unit 10th on the transport information 33 of the cargo 100 to be able to close.

In a further alternative exemplary embodiment, not illustrated, the environmental parameters 16 by means of the first communication unit 30th can also be sent directly to the external network.

2nd shows a first embodiment of an operating method according to the invention of a monitoring unit for detecting and storing environmental parameters of a transport good.
First, in one process step a at least one transport information 33 of a cargo 100 by means of a first, wireless communication unit 30th a monitoring unit 10th receive. This transport information 33 includes whether an air transport of the cargo 100 is planned or not. In a method step b, there is then a processing unit 20th depending on the transport information 33 checked whether an air transport is planned. It turns out that an air transport of the cargo 100 is planned, the first communication unit is then in a method step c 30th from a send and receive state to a pure receive state. The send and receive state is to be regarded as a typical normal state, in which signals can be both transmitted and received. In the pure reception state, however, it is not possible to transmit signals, although this can also be referred to as a so-called eavesdropping state. Then, in a method step d, an emission signal is generated 36 by means of the first communication unit 30th receive. In a subsequent process step e then becomes the first communication unit 30th put back into a send and receive state.

Optionally runs before the process step e another step f in which it is checked whether the transmission signal received in method step d 36 has a code which with a in the monitoring unit 10th stored code matches. If the received code matches the stored code, the method step then e continued. If, on the other hand, there is no match, the method step d is continued. This can be done either before the procedure in the monitoring unit 10th can be saved or, for example, with the transport information 33 be transmitted.

Furthermore, optionally runs before the process step a another step G from. In this step G becomes at least one transport information 33 by means of an external device 50 detected and by this external device 50 by means of a second communication unit 60 sent out. Collecting transportation information 33 can in process step G done by a user the transport information 33 by means of an input unit 70 the external device 50 provides. Alternatively, the transportation information 33 can be detected by an identifier of the monitoring unit 10th by means of the external device 50 is read in and then the transport information based on the read-in identifier in an external network 33 by means of the external device 50 is retrieved.

Claims (10)

Monitoring unit (10) for recording and storing environmental parameters (16) during the transport of a transport good (100), with a processing unit (20) and a first, wireless communication unit (30), the processing unit (20) being set up by means of the first communication unit (30) to receive at least one piece of transport information (33), and wherein the processing unit (20) is set up to use the transport information (33) to check whether an air transport of the transport goods (100) is planned, characterized in that the Processing unit (20) is set up to set the first communication unit (30) from a send and receive state to a pure receive state when an air transport is planned, and that the processing unit (20) is set up to send an send signal (36 ) by means of the first communication unit (30) and di when receiving the transmission signal (36) e to put the first communication unit (30) back into the transmit and receive state. Monitoring unit (10) after Claim 1 , characterized in that the processing unit (20) is set up to compare a code of the transmission signal (36) with a stored code and, if there is a match, to set the first communication unit (30) in the transmission and reception state. System with a monitoring unit according to one of the Claims 1 or 2nd , characterized in that the system has an external device (50), the external device (50) being set up to acquire the transport information (33) and to transmit it by means of a second, wireless communication unit (60). System according to Claim 3 , characterized in that the external device (50) has an input unit (70) for recording the transport information (33) by a user. System according to Claim 3 , characterized in that the monitoring unit (10) has an identifier, the external device (50) being set up to read the identifier and to call up the transport information (33) in an external network on the basis of the identifier read. Method for operating a monitoring unit (10) for recording and storing environmental parameters (16) during the transport of a transport good (100), with the following method steps: a. Receiving at least one piece of transport information (33) of the goods to be transported (100) by means of a first, wireless communication unit (30) of the monitoring unit (10), b. Checking on the basis of the transport information (33) whether an air transport is planned by means of a processing unit (20) of the monitoring unit (10), c. Moving the first communication unit (30) from a transmission and reception state to a pure reception state if air transport is planned, i. Receiving an emission signal (36) by means of the first communication unit (30), e. Put the first communication unit (30) in the send and receive state. Procedure according to Claim 6 , characterized in that before method step e, a method step f takes place, in which it is checked whether the transmission signal (36) has a code that matches a code stored in the monitoring unit (10), and if so, with step e is continued. Procedure according to Claim 6 or 7 , characterized in that before method step a, a method step g takes place, in which the transport information (33) is recorded by means of an external device (50) and transmitted by this external device (50) by means of a second communication unit (60). Procedure according to Claim 8 , characterized in that the transport information (33) is recorded in method step g by inputting a user by means of an input unit (70) of the external device (50). Procedure according to Claim 8 , characterized in that the transport information (33) is recorded in method step g by reading in an identifier of the monitoring unit (10) by means of the external device (50) and then using the read identifier in an external network to transmit the transport information (33) by means of the external device (50) is accessed.

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