NL1042419B1 - A communication method, a communication system and a computer program product - Google Patents

Abstract

The invention relates to a communication method as applicable within the military deployed domain, where timely information provision is of vital importance. The object of the invention is: the realization of a communication method with additional functionalities for the user. To support the user's personal decision-making, to which a task is assigned, the user may have one or more Electronic 6t Portable Communication Devices (EDCAs). If a user of the communication system carries a second EDCA, such as for example a smart watch, in addition to a mobile telephone, part of the invention comprises monitoring the quality of this user's Redundant Task Authorized Communication (RTC). The invention further comprises a description of the composition of a base station, a fire alarm, and a description of the method for integral network-centric access to the communication system, upon entering the relevant military deployed domain according to the FAF-NOT principle.

Description

Title: A communication method, a communication system and a computer program product

The invention is related to a communication method. This possibly partly wireless communication method can be applied between people and can also be applied between people and systems. The various communication groups are present within one and the same deployed military area where a timely provision of information - in the order of milliseconds - is vital. A vital provision of information is present in the deployed military area of, for example, an enclave or the deployed military area of, for example, an airport and on board ships of the Royal Netherlands Navy. The different types of deployed military areas are all unambiguously described as objects within the military deployed domain, whereby the communication method within these objects ensures that the user of the communication system has access to additional functionalities. The object of the invention is to realize an individual-oriented communication method in which use is made of the existing communication system as present within the Military Deployed Domain object (MOD object). With the new communication method as a starting point and taking into account the invention, the method is arranged in such a way that when a person is charged with performing one or more specific tasks, this user of the communication system can use task-based functions with the additional functionalities message traffic and / or task-based voice channels. In this task-based communication, the user makes use of, among other things, the user rights of the user profile of the telephone exchange of the communication system as used within the MOD object. To support personal decision-making, the user can have one or more Electronic & Portable Communication Devices (EDCAs). An EDCA is hereby connected as endpoint to the telephone exchange via one or more (wireless) communication channels in order to present the results of task-based data processing processes - as performed on the server of the communication system and / or the relevant EDCA - to the user . If the user, in addition to for example a mobile telephone, carries a second EDCA such as, for example, a smart watch, a part of the invention comprises monitoring the quality of the Redundant Task Authorized Communication (RTC) of this user. For example, if the Task Authorized Communication (TC) is present on the user's smart watch and at a given moment of insufficient quality, the relevant TC is moved to, for example, the mobile phone of the same user. The RTC method described can be applied for various reasons, for example used for the introduction of a new type of EDCA, which may still contain teething problems. When actually detecting teething problems when used on board, the user can fall back on the old type of EDCA, whereby this relapse includes emergency procedures, and in which a TC interruption of the user within his own EDCA User Profile Group (EDCA-GPG) is prevented.

The invention further relates to a (wireless) communication system and a computer program product. The server of the communication system can consist of a single hardware module, but the server can also be of the distributed type. For a server of the distributed type this includes the configuration in which several server modules together form the server of the communication system. The communication system within the MOD object is further of the closed type. This means that: a) only authorized electronic communication devices have access to the communication system; b) the EDCAs only function within the range of the base stations as present within the MOD object.

The computer program product comprises a collection of computer programs wherein these computer programs are stored on, for example, a data carrier such as computer memory, a memory stick, a CD or a DVD. The set of computer programs, which make it possible to enable the described communication method of the invention, can also become available through an installation of an application (app), namely with the aid of a remote server, for example via the internet.

For clarification, parts of the communication method are described in more detail with reference to the enclosed drawing (Figure 1). The drawing illustrates only a single practical application of the invention. For example, there are only two navy sailors and only two base stations shown in the drawing. To describe the operation of the system, both the number of base stations and the rank of naval personnel are not important. In addition, the sailors in the drawing can just as well be replaced by other persons from the other armed forces and the aircraft carrier can be replaced as a MOD object by, for example, a compound or an air force base. It is also possible to replace the two sailors with cabin crew from, for example, the Royal Dutch Airlines (KLM). It is also possible, for example, to replace the two sailors with flight guides from the Dutch government. Practice has also shown that more than two people are present on board an aircraft carrier. The number of people within a MOD object is not relevant to describe the operation of the system. Furthermore, all three-digit reference numbers in the drawing refer to the corresponding parts in the description of the drawing below. Within the scope of the invention these and other described functionalities become available with the help of TC for the task authorized user of the communication system of the invention, the user is trained to perform work within the military deployed domain and the user is skilled in the art of collecting and processing command & control information. All described functionalities are understood to fall within the scope of the invention as set forth in the following claims. The claims aim to describe the invention concisely and clearly, the additional functionalities being described separately or together. The scope of the invention includes all embodiments of the invention in which a combination of one or more described additional functionalities is possible, and even a combination of all described additional functionalities will be possible.

Figure 1 shows the communication method of the invention. In gaining access to the MOD object according to a certain method, it is customary to register using the access card 110 before being able to use the computer programs 020 to 032 of the computer program product and the communication network 100. With the invention as a starting point Figure 1 also shows a schematic representation of the communication system 100 in which system registration of a person will be possible with the aid of the access card 110 on board the aircraft carrier. The communication system is used in military deployed areas such as a military barracks, a military airport but also on board ships of the Royal Netherlands Navy. In addition, the system is used in aircraft of commercial airlines, whereby cabin crew and flight attendants are better instructed in the evacuation of the aircraft and / or in bringing one or more passengers to safety. A flight attendant is described in English as Air Marshal or Sky Marshal. The system 100 uses various activated electronic communication devices 00 to 006 which can function independently of each other. For example, in Figure 1 a mobile phone 002 and a smart watch 003 have been chosen. Both EDCAs are worn by a user 060. Another user 061 is wearing a smart watch 004 and a virtual reality glasses (VR glasses) 005. Being of the information frame the ship components on board and in view of the outward facing camera of the VR glasses, ship component information is presented on the inside of one or both of the glasses of the VR glasses. With this information, for example, the user can more efficiently search for malfunctions on board. For example, if the user looks through the VR goggles at a valve in a tube system, the VR goggles can indicate which fluid is in the tube system. The VR goggles can also indicate the position of the valve in question and, if liquid flows through the valve, the direction of flow of the liquid.

In addition, the system 100 comprises a communication cable network 040 which is connected to the server 000. In the example of Figure 1, the communication cable network of the communication system 100 comprises the cabling of base stations 051 & 052. The cable 041 of the communication cable network 040 connects the base station 051 to the server 000, whereby the EDCA 001 is wirelessly connected to the server. On board the entire aircraft carrier, the group of base stations ensures wireless communication with all EDCAs activated on board. In the example of Figure 1, the activated EDCAs 001 to 005 are connected to the server 000 via wireless communication channels to present any results of the data processing steps to the activated EDCAs. Generally, the server 000 of the system 100 is also provided with telephone exchange software 032 for the purpose of enabling mutual telephone conversations on board. The base station is also equipped with a fire alarm, whereby the fire alarm is equipped with one or more fire alarm sensors. The fire detector and the base station together use the same supply voltage as offered via the communication cable network 040. If the base station 052 is provided with, for example, a smoke detector, the connected ethernet cable 042 is provided with at least two virtually separated networks. A Virtual Private Network (VPN) is hereby coupled to the fire alarm system 120 and another VPN is coupled to the server 000 of the communication system 100. For the on-board crew of the aircraft carrier the basic functionality of the EDCA is part of the communication system, making and receiving calls ( can be moved freely by the ship. The EDCA functionality also includes the ability to access the internet and / or data from the military deployed area. In Figure 1, the devices 001 to 006 are all end-points of the telephone exchange 032. For a proper functioning of the communication system, computer programs are installed on all EDCAs 020a, 021a, 022a and 023a. The data processing processes carried out by the computer program product on the data of the endpoints and / or the data of the server and / or the data of other computer systems include the activation, modification and deactivation of one or more EDCAs of the user as the personal endpoint of the telephone exchange of the communication system 100. In the military deployed area where the communication system is used, it is necessary to keep specific data accessible in the event of an emergency for the user (s) charged with one or more tasks. The user can use TC to effectively perform his or her task. This concerns, for example, the use of (two-way) voice traffic, audio, notifications but also video, information requests and assignments.

In Figure 1, the user account of user 060 is authorized for the tasks of, for example, chef d’equipage. The EDCA-GPG rights 030 are also provided with rights based on a derivative of the digital identity of the user to be able to link the task authorized function of chef d'equipage to the user account of the user 060. The software program 030 is hereby a addition to the telephone exchange software 032. In the example of Figure 1, for the task of chef d'equipage in the software program 030, in addition to the rights for task authorized communication, the overlap in functionality of the mobile phone 002 and the smart watch 003 is coordinated with each other . Additional data registered in the EDCA-GPG, such as the physical presence of the user within the MOD object. To make the additional functionalities available, the EDCA-GPG 030 and EDCA-GPG 031 and EDCA-GPG 031 are provided with additional data by means of a management function for user 060 and user 061.

In order to be able to offer RTC 007 as additional functionality to the user 060, who, for example, is still charged with the task of chef d'equipage, the two EDCAs of this user are the mobile phone 002 and the smart watch 003 respectively the RTC software 022b 6t 023b installed. By installing this software on both EDCAs, the TC is made redundant for the user 060 in charge of the task chef equipage. In this way it is possible to transfer the authorized communication of the chef d´equipage from his / her smart watch 003 to his / her mobile phone 002 and back.

With the help of the Netherlands Standardization Institute, a standard for two different types of admission tickets for MOD objects of the European Union is specified. An access card in accordance with this standard gives a soldier from a member state of the European Union access to MOD objects from (a member state of) the same European Union. This first step of the network centric access 110 on board, for example, an aircraft carrier 100, has a method in accordance with the FAF-NOT principle. According to this method, the access card as shown in the hand of the person 110 on board the aircraft carrier 100 can be issued to the surveillance personnel, whereafter, for example, access registration of the person concerned can take place with the aid of this access card.

In the second step of the network centric access 110, the relevant EU military gains access after system registration with the aid of a knowledge authentication factor to the (wireless) communication network 100 as shown in the drawing of Figure 1. The additional functionalities of the invention can therefore also be used, for example, with a combined Belgian and Dutch on-board crew, as may possibly apply on board the successors to be built for the Alkmaar & Flower class mine hunters and / or the successors of the Karei Doorman class frigates. With network-centric access as additional integrated access functionality, the ship's commander 100 can, for example, efficiently register on-board modular on-board crews of different nationalities of the European Union and the new communication method for the on-board crew, among other things, becomes safer, because in the event of a ship calamity in, for example, a foreign port, the admission tickets of the on-board crew in accordance with FAF-NOT are immediately available at the last minute for emergency organizations such as fire brigade and ambulance services.

Claims (35)

1. EDCA is the abbreviation for Electronic & Portable Communication Device. EDCA-GPG is the compound abbreviation of the abbreviation EDCA and the abbreviation GPG EDCA is the abbreviation of Electronic & Portable Communication Devices. FAF-NOT is the abbreviation for Physical Authentication Factor, which is NOT in possession anymore. GPG is the abbreviation for User Profile Group. MLS code is the abbreviation for Machine Readable Strip code. MOD object is the abbreviation of Military Deployed Domain object. RTC is the abbreviation for Redundant Task Authorized Communication. TC is the abbreviation for Task Authorized Communication. VPN is the discount for Virtual Private Network. VR glasses the abbreviation of Virtual Reality Glasses. A method of use according to claim 1 wherein two or more activated EDCAs from one and the same user are connected via wireless communication channels to the server of the communication system for performing data processing processes, and presenting the results of these data processing processes to the user of the RTC functionality. A method according to claim 2 wherein the system of the invention will keep track of which (R) TC is active on which EDCA of which user of the communication system. A method according to claim 3 wherein the system of the invention monitors the RTC quality. Monitoring the RTC quality means that the system monitors whether: a) a task authorized user can actually send and receive task authorized messages; b) the task authorized user can also call and be called task authorized. A method according to claim 4 wherein the RTC monitoring includes an alarm signal if the monitoring step has a negative outcome. For example, a signal to the user if the redundancy of the TC is lost and, for example, a signal to the user and third parties if the user in question no longer has access to the TC. A method according to claim 4 where in the case of insufficient RTC quality, the system of the invention moves the TC to another EDCA of the same user. Insufficient RTC quality means that the authorized user can no longer receive task authorized messages and / or cannot perform an intelligible task of authorized telephone calls (such as, for example, when the battery of the relevant EDCA is charged and the user during his or her authorized task must be able to move freely through the ship. A method according to claim 4 wherein the system blocks the RTC functionality if, for example, an inconsistency or an unauthorized change in the associated EDCA-GPG arises as is the case when one or more TCs of a user are active and the user in question is the military deployed area and whether or not the accompanying EDCA (s) are included. A method according to claim 6, wherein the relevant TC displacement can also take place at the request of the user. The user can move the TC himself from, for example, his own smart watch to his own mobile phone, for example if the battery of the smart watch is low and the user can no longer wear the watch because the battery of the smart watch needs to be charged and the user for example, activities authorized for his or her task must be able to move freely through the ship. 9. Method as claimed in claim 7 or 8, wherein the use of the RTC by a user will only be possible if a derivative of the digital identity of this user as present on, for example, his or her access card, corresponds to the derivative of the same digital identity and, for example, present within the EDCA-GPG and / or the user profile of the telephone exchange of the communication system of the invention. A method according to any one of the preceding claims, wherein the overlap in communication possibilities of the various EDCAs of a task authorized user are matched to each other. This means that the system knows in advance which method of communication, which EDCA is used with the following three different communication methods described below: a) a complete task of authorized communication with, for example, the situation in which, for example, the fire officer on board calls the chief d'equipage; b) half a task of authorized communication whereby the chef d'equipage, for example, sends an information request to an on-board installer to come for example to collect the clean laundry or as an example the fire officer who receives a message or alarm from the fire alarm system and / or the fire extinguishing system as on board installed; c) A non-task authorized communication with, for example, a user who in his spare time on board the aircraft carrier sends a (computer game) message to another person present in another section of the same aircraft carrier. A method according to any one of claims 1 to 10, wherein the cabin crew of an airline and / or the flight attendant make use of the communication system of the invention on board a passenger aircraft with the aid of smart watches and wherein the passenger on board using a EDCA not owned by the airline uses the same on-board communication system. This is in contrast to the EDCA on board the aircraft carrier which is not owned by the on-board crew. The method of use according to claim 1, wherein the VR goggles are used as EDCA and in which position determination of the VR goggles in question using base stations of the communication system on board, for example, the ships of the Royal Dutch, is merged with acceleration sensor information of the VR goggles when moving the head of the wearer of the VR goggles and also camera ambient images of the same VR goggles are used to determine the information framework of the group of ship platform components. The method of use according to claim 1, wherein a smart watch such as EDCA is equipped with an air quality measurement module for gas detection such as, for example, a CO2 meter. Method of use according to claim 1, wherein a person obtains access to a MOD object of the European Union as well as network centric access to the (wireless) communication system of the relevant MOD object with the aid of an access card. Method as claimed in claim 14, wherein the registration of the access card can take place with the aid of a machine-readable strip as present for example on Dutch passports and Dutch driving licenses. The method of claim 15 and wherein the English language is leading for any abbreviations in the MLS code. Method according to claim 16, wherein a person can independently register the personal access card (health card) via the fixed lock scanner and wherein this fixed lock scanner is directly connected with a cable connection to the server of the communication system for performing data-processing registration processes of the personal access card of this person. As an example, registering the personal access card of a member of the on-board crew of a ship of the Royal Netherlands Navy, this ship being equipped with additional functionalities of the communication system of the invention. A method according to claim 17, wherein the following text is displayed as a wavy microtext on the background of the machine-readable strip of the personal access card: HEALTH CARD CARTE SANTÉ SUNDUTE CARTETESSERA SANITARIATARJETA THE SALUT HEALTH CARD. This text may be supplemented immediately by mention in one or more other European languages and this wavy micro text may be shown in a different order. The method according to claim 18, wherein the first character of the MLS code of the health card always starts with an H. This H is the abbreviation for the English word for health card (health card). The second nature of the health card can be a serial number to indicate which personal access cards have expired prior to this personal access card. For example, a personal access card expires when the loss of this personal access card is reported. The third, fourth and fifth character of the MLS code represents the three-digit country code of the European member state. As an example, for a Belgian health card with serial number one, the first five characters are H1 BEL. The method according to claim 19, wherein the remaining part of the MLS code can display a card number and / or a public key of the personal access card. A method according to claim 17, wherein on the other side of the health card data from the medical service and / or data from the health insurance of the national armed forces of the person concerned are displayed. The method of claim 16 wherein an EDCA is a wireless last-minute scanner of monitoring the MOD object via one or more wireless communication channels connected to the server of the communication system for performing data-processing registration processes of the public access card (boarding pass) of a person. As an example, the registration of the public access card of a runners-up or a boarder by the (last-minute) security on board a ship of the Royal Netherlands Navy, this ship being equipped with the additional functionalities of the communication system of the invention. A method according to claim 22, wherein the following text is displayed as a wavy micro text on the background of the machine-readable strip of the public access card: BOARDING CARD CARTE DEBARQUEMENT BORDKARTE CARTA D’lMBARCO TARJETA DE EMBARQUE BOARD CARD. This text possibly supplemented with an entry in one or more other European languages and where this wavy micro text may be displayed in a different order. The method according to claim 23, wherein the first character of the MLS code always starts with a B. This B is the abbreviation for the English word for boarding pass (boarding card). The second character of the public access card can be a sequence number to indicate which public access cards have expired prior to this public access card. For example, a public access card expires when the loss of this public access card is reported. The third, fourth and fifth character of the MLS code represents the three-digit country code of the European member state. As an example with a public Dutch access card with sequence number two, the first five characters are B2NLD. The method of claim 24 wherein the remaining part of the MLS code can display additional information from the public access card of the MOD object. As an example, the MLS code B1BELBNSF9300010 indicates that the boarding pass number 10 of F930 is Leopold 1. The MLS code B2NLDLW920SQN009 indicates, for example, that this is employee 009 of Leeuwarden Air Base serving at Squadron 322 and temporarily working at a foreign air base as JSF ground personnel. A method according to claim 22, wherein information of the MOD object is displayed on the other side of the public access card, such as for example information about the ship and / or the relevant ship class of the Royal Netherlands Navy. The method according to claim 22, wherein a proof of identity of the European Union and wherein the MLS code is designed according to the European Union model, can also serve as a public access card for a European Union MOD object. As an example, the last minute monitoring of Zr.Ms. Karei Doormann register a German passport on board the ship with the name sign A833 as a public access card. Method according to claim 24, wherein the public access card can also be equipped with a contactless proximity communication method in addition to an MLS code and which method is described in English as Near Field Communication. A method according to claim 28, wherein, for example, the raft commander of a liferaft checks and registers a public access card of a boarder at the exit roll of a ship while occupying a predetermined place of a liferaft by this boarder. A method according to claim 2 wherein one or more EDCAs of each member of the on-board crew is provided with a contactless proximity communication method. A method according to claim 30 wherein, for example, the raft commander of a life raft checks and records the relevant EDCA of a member of the on-board crew at the exit roll of a ship while occupying a pre-assigned place of a life raft by this crew member. The method of use according to claim 1, wherein a base station and a fire detector are connected to one and the same supply voltage using one and the same cable from the respective supply voltage source. The method according to claim 32, wherein a fire detector can contain one or more fire alarm sensors. The method of claim 32 wherein the power cable is also used to send data. The method according to claim 34, wherein the cable in question is provided with at least two virtual networks, a VPN connected to the telephone exchange and a VPN connected to the fire panel.