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    • 4. 发明申请
    • METHOD FOR GENERATING TRIGGERS BASED ON THE POSITION OF A TERMINAL IN A MOBILE COMMUNICATION NETWORK, RELATED NETWORK AND COMPUTER PROGRAM PRODUCT THEREFOR
    • 基于移动通信网络终端位置产生触发器的方法,相关网络和计算机程序产品
    • WO2005041604A1
    • 2005-05-06
    • PCT/EP2003/010813
    • 2003-09-30
    • TELECOM ITALIA S.P.A.PARATA, Dario
    • PARATA, Dario
    • H04Q7/38
    • H04W64/00
    • Triggers for the provision of location based services in a mobile communication network supporting a plurality of mobile terminals over a given territory, are generated by: defining a set of target areas within the territory covered by the network, each target area being identified by respective geographic data, transforming (M1) the geographic data in a respective set of values of network related entities, the respective set of values being expected to be encountered by a mobile terminal when located in the corresponding target area, monitoring (C1) the values comprised in the respective set as experienced by at least one monitored mobile terminal in the mobile communication network, checking (C1) whether the values as monitored match with the set of values are expected to be encountered, and when a match is found, which is indicative of said monitored mobile terminal being located in a given target area of said set, generating a trigger for prompting delivery of location based services related to the target area considered towards the monitored mobile terminal.
    • 通过以下方式产生用于在支持在给定领域上的多个移动终端的移动通信网络中提供基于位置的服务的触发器:定义由网络覆盖的领域内的一组目标区域,每个目标区域由相应地理 数据,在网络相关实体的相应值集合中变换(M1)地理数据,预期当移动终端位于相应的目标区域时遇到的相应的一组值,监视(C1)包含在 由移动通信网络中的至少一个被监控的移动终端经历的相应集合,检查(C1)是否期望遇到与监视的值匹配的值,并且当发现指示匹配时 所述被监视的移动终端位于所述集合的给定目标区域中,产生用于促使基于位置的服务的传递的触发 与被监视的移动终端考虑的目标区域相关。
    • 7. 发明申请
    • METHOD AND SYSTEM FOR ESTIMATING THE PRESENCE OF PEOPLE ON A TERRITORY EXPLOITING MOBILE COMMUNICATION NETWORK DATA
    • WO2021239520A1
    • 2021-12-02
    • PCT/EP2021/063168
    • 2021-05-18
    • TELECOM ITALIA S.P.A.
    • COLONNA, MassimoLOVISOLO, PieroPARATA, DarioPETRA, Massimiliano
    • H04W4/02H04W4/021H04W4/029H04W4/027
    • A method, implemented by a data processing system (100), for estimating presence of individuals on a territory based on data derived from a mobile communication network (105) comprising a plurality of network cells (105b) covering said territory, wherein said individuals are users of mobile communication terminals configured to be adapted to interact with the mobile communication network and located in said territory. The method comprises: subdividing a geographic area of interest (300) in geographic zones (z1 – z9); subdividing the geographic area of interest (300) in geographic area portions (605); causing mobile communication terminals served by the mobile communication network and situated in the geographic area of interest to calculate respective geographic position estimates and provide the calculated geographic position estimates (700) to the data processing system;- distributing an overall number of geographic position estimates, received from the mobile communication terminals, on the geographic area portions by assigning to each geographic area portion a respective number of geographic position estimates corresponding to geographic positions estimates falling within said geographic area portion. For each network cell: determining, among the geographic area portions (605), covered geographic area portions falling within a coverage area of the cell; assigning to each one of the determined covered geographic area portions a respective weight which depends on the respective number of geographic position estimates compared to an overall number of geographic position estimates falling within all the determined covered geographic area portions; generating a correspondence map, establishing a correspondence between the cells and the geographic zones, by, for each of said network cells, calculating a cell weight of the network cell on each geographic zone by determining the geographic area portions belonging to each of the zones and summing the respective weights of the geographic area portions identified as belonging to the zones; receiving from the mobile communication network and storing in a repository (115) indications of events of interaction between the mobile communication terminals and the network cells of the mobile communication network; identifying, for each one of the stored indications of events of interaction, the network cell in which the event of interaction occurred; using the correspondence map, building an array of presences (400; 4001 – 400M) in which each geographic zone has assigned thereto a respective indication of a respective number of events of interaction occurred in the identified network cells which have, in the geographic zone, a cell weight greater than a predetermined cell weight value, and providing the array of presences in output for the use, by a user of the data processing system, for estimating presence of individuals on a territory.
    • 8. 发明申请
    • METHOD AND SYSTEM FOR CALCULATING ORIGIN-DESTINATION MATRICES EXPLOITING MOBILE COMMUNICATION NETWORK DATA
    • WO2021239521A1
    • 2021-12-02
    • PCT/EP2021/063170
    • 2021-05-18
    • TELECOM ITALIA S.P.A.
    • COLONNA, MassimoLOVISOLO, PieroPARATA, DarioPETRA, Massimiliano
    • H04W4/029H04W4/021
    • A method, implemented by a data processing system (100), for computing O-D matrices (400; 4001- 400M, 500) indicative of movements, in a geographic area of interest (300), of physical entities being users of mobile communication terminals adapted to interact with a mobile communication network (105) comprising a plurality of network cells (105b), each O-D matrix being related to a respective time slot of an observation time period and comprising a plurality of entries. The method comprises: subdividing the geographic area of interest (300) in a plurality of geographic zones (z1 – z9), each entry of an O-D matrix (400; 4001- 400M) to be computed containing an indication of a number of movements from one geographic zone (z1,…, z9) to another geographic zone (z1,…, z9) in the respective time slot; subdividing the geographic area of interest in a plurality of geographic area portions (605); causing (805, 900) mobile communication terminals served by the mobile communication network (105) and situated in the geographic area of interest (300) to calculate and provide respective geographic position estimates to the data processing system (100); distributing (810, 1000) an overall number of geographic position estimates (700), received from the mobile communication terminals, on the geographic area portions (605) by assigning to each geographic area portion (605) a respective number of geographic position estimates corresponding to geographic positions estimates falling within the geographic area portion; for each network cels (105b): determining, among said plurality of geographic area portions, covered geographic area portions falling within a coverage area of the network cell, and assigning (1115) to each one of the determined covered geographic area portions a respective weight which depends on said respective number of geographic position estimates compared to an overall number of geographic position estimates falling within all the determined covered geographic area portions; generating (820, 1200) a correspondence map establishing a correspondence between the network cells (105b) and the geographic zones (z1,…, z9), by calculating, for the considered network cell, (1210) a cell weight on each geographic zone (z1,…, z9) by determining the covered geographic area portions belonging to each zone and summing the respective weights of the covered geographic area portions identified as belonging to the zone; receiving from the network (105) and storing in a repository (115) indications of events of interaction between the mobile communication terminals and the network cells (105b), each indication of events of interaction including an indication of the cell in which the event of interaction occurred and a time indication of the occurred event of interaction; for each mobile communication terminal: extracting (1305) from the repository (115) and analysing the respective indications of events of interaction stored in the repository; for selected couples of indications of events of interactions consecutive in time: identifying the respective network cells (105b) in which the two events of interaction occurred, wherein the network cell (105b) in which the first in time event of interaction of the couple of indications of events of interactions occurred is considered as origin network cell of a movement and the network cell in which the second in time event of interaction of the couple of indications of events of interactions is considered as destination network cell of a movement, wherein said identifying the respective network cells is based on the indication of the network cell in which the event of interaction occurred included in the indication of events of interaction stored in the repository (115); identifying as origin geographic zones (z1,…, z9) those geographic zones in respect of which the cell weight of the network cell associated with the first in time event of interaction of said couple is greater than a predetermined minimum weight; identifying as destination geographic zones (z1,…, z9) those geographic zones in respect of which the cell weight of the network cell associated with the second in time event of interaction of the couple is greater than a predetermined minimum weight, assigning (1325) to each movement from one of the identified origin geographic zones to one of the identified destination geographic zones a respective movement weight calculated as a function of the weight of the origin network cell on the origin geographic zone and of the weight of the destination network cell on the destination geographic zone; assigning to the entry of the O-D matrix corresponding to the one of the origin geographic zones and the one of the destination geographic zones a value determined on the basis of said movement weight.
    • 9. 发明申请
    • METHOD AND SYSTEM FOR DISTRIBUTING, ACROSS A TERRITORY, DATA AGGREGATED AT A MOBILE COMMUNICATION NETWORK CELL LEVEL
    • WO2021239519A1
    • 2021-12-02
    • PCT/EP2021/063167
    • 2021-05-18
    • TELECOM ITALIA S.P.A.
    • COLONNA, MassimoLOVISOLO, PieroPARATA, DarioPETRA, Massimiliano
    • H04W4/029H04W4/021
    • A method, implemented by a data processing system (100), for distributing, across a territory, cell-level aggregated data available from a mobile communication network (105) in a form that is aggregated at the level of single network cells (105b) of the network (105). The method comprises: subdividing a geographic area of interest (300) in geographic area portions (315); causing mobile communication terminals served by the mobile communication network and situated in the geographic area of interest to calculate respective geographic position estimates and provide the calculated geographic position estimates (400b) to the data processing system; distributing an overall number of geographic position estimates received from the mobile communication terminals on the geographic area portions by assigning to each geographic area portion a respective number of geographic position estimates corresponding to geographic positions estimates falling within said geographic area portion; receiving cell-level aggregated data (400a) relating to at least one network cell; for each of said at least one network cell: determining, among the geographic area portions (315), covered geographic area portions falling within a coverage area of the network cell; distributing the cell-level aggregated data of the network cell on each of the determined covered geographic area portions according to a respective distribution factor which depends on the respective number of geographic position estimates assigned to the covered geographic area portion, and generating a distribution map of the cell-level aggregated data in which to each of the geographic area portions of the geographic area of interest (300) a respective quota of the cell-level aggregated data is assigned, the respective quota being obtained by the distribution of the cell-level aggregated data of the network cell on each of the determined covered geographic area portions according to the respective distribution factor.