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    SYSTEM AND METHOD FOR TEMPERATURE MONITORING IN A ROOM
    2.
    发明申请
    SYSTEM AND METHOD FOR TEMPERATURE MONITORING IN A ROOM 审中-公开
    室内温度监测系统及方法

    公开(公告)号:WO2013091692A1

    公开(公告)日:2013-06-27

    申请号:PCT/EP2011/073625

    申请日:2011-12-21

    Applicant: TELECOM ITALIA S.p.A. ANTONINI, Roberto FARACI, Felice Fulvio GASPARDONE, Marco

    Inventor: ANTONINI, Roberto FARACI, Felice Fulvio GASPARDONE, Marco

    IPC: G01K1/14 G01K7/42

    CPC classification number: G01J5/10 G01J2005/0085 G01J2005/0092 G01K1/143 G01K7/42 G01K2213/00

    Abstract: It is disclosed a method for monitoring the temperature of a survey surface in a room The method comprises: providing a number N of temperature sensors coupled to the survey surface; receiving from the number of temperature sensors respective temperature values; applying an extrapolation model to the received temperature values and extrapolating an extrapolated thermographic scan of the survey surface; and monitoring the temperature of the survey surface on the basis of the extrapolated thermographic scan.

    Abstract translation: 公开了一种用于监测房间中测量表面的温度的方法。该方法包括:提供耦合到测量表面的数量N个温度传感器; 从温度传感器的数量接收各自的温度值; 将外推模型应用于所接收的温度值并外推测量表面的外推热敏成像扫描; 并根据外推热敏成像扫描监测测量表面的温度。

    3D INTERACTIVE MENU
    3.
    发明申请
    3D INTERACTIVE MENU 审中-公开
    3D互动菜单

    公开(公告)号:WO2012089270A1

    公开(公告)日:2012-07-05

    申请号:PCT/EP2010/070931

    申请日:2010-12-30

    Applicant: TELECOM ITALIA S.p.A. ANTONINI, Roberto BELLUATI, Maurizio

    Inventor: ANTONINI, Roberto BELLUATI, Maurizio

    IPC: G06F3/048

    CPC classification number: G06F3/0482 G06F3/04815

    Abstract: A method for navigating an interactive menu in a virtual environment is provided. The interactive menu comprises a first number of selectable items. The method includes providing a grid on a delimited portion of a plane in the virtual environment. The grid includes a second number of locations equal to said first number. The method further includes providing a plurality of navigation directions within said grid and arranging each item of the menu on a respective location of the grid according to an item-grid arrangement. Adjacencies along said navigation directions among items located on the grid determine corresponding adjacency relationships; adjacency relationships are further determined along said navigation directions among items located on border locations of the grid which are situated on borders of said delimited portions. The method further includes shooting a first item in the close-up to enable selection of said item, receiving a navigation command identifying a navigation direction along which a second item to be selected is located, and altering the item-grid arrangement to relocate the items in different locations of the grid based on the received navigation command in such a way to shoot the second item in the close-up. Said altering the item-grid arrangement provides for preserving the adjacency relationships.

    Abstract translation: 提供了一种用于在虚拟环境中导航交互式菜单的方法。 交互式菜单包括第一数量的可选项目。 该方法包括在虚拟环境中的平面的定界部分上提供网格。 网格包括等于所述第一数量的第二数量的位置。 该方法还包括在所述网格内提供多个导航方向,并且根据项目网格布置将菜单的每个项目排列在网格的相应位置上。 位于网格上的项目之间的所述导航方向的相邻性确定相应的邻接关系; 在位于所述分隔部分的边界上的网格的边界位置上的项目之间,沿着所述导航方向进一步确定相邻关系。 该方法还包括拍摄特写中的第一项目以便能够选择所述项目,接收识别要被选择的第二项目所位于的导航方向的导航命令,以及改变所述项目网格布置以重新定位所述项目 基于所接收的导航命令在网格的不同位置以拍摄特写中的第二项目的方式。 所述改变项目网格布置提供了保持邻接关系。

    SYSTEM AND METHOD FOR CONTROLLING UNMANNED AUTONOMUS VEHICLES
    4.
    发明申请
    SYSTEM AND METHOD FOR CONTROLLING UNMANNED AUTONOMUS VEHICLES 审中-公开

    公开(公告)号:WO2021185597A1

    公开(公告)日:2021-09-23

    申请号:PCT/EP2021/055568

    申请日:2021-03-05

    Applicant: TELECOM ITALIA S.P.A.

    Inventor: ANTONINI, Roberto GASPARDONE, Marco ROSSOTTO, Mauro, Alberto

    IPC: G05D1/00 G08G5/00 H04L12/00 H04W4/00 H04W12/00 B64C39/02

    Abstract: A system is provided, comprising: - an automatic drive system (105) connected to a communication network (112) and configured to drive flying unmanned autonomous vehicles (ID(i)) by exchanging messages and commands with said unmanned autonomous vehicles (ID(i)) exploiting a communication link (CH1) between said communication network (112) and unmanned autonomous vehicles (ID(i)); - a terminator network (200) different from said communication network (112), said terminator network (200) comprising terminator units (T(j)) deployed across a geographic area, each terminator unit (T(j)) being configured to exchange messages and commands with unmanned autonomous vehicles (ID(i)) located in a respective terminator unit coverage area (CA(j)) within said geographic area through a first additional communication link (CH3), each terminator unit (T(j)) being configured to send flight termination commands (FTC(ID(i)) to selected unmanned autonomous vehicles (ID(i)) through said first additional communication link (CH3), each unmanned autonomous vehicle (ID(i)) being configured to carry out a flight termination procedure in response to the reception of the termination command, said first additional communication link (CH3) being different from said communication link (CH1).

    AREA MONITORING SYSTEM AND METHOD
    5.
    发明申请
    AREA MONITORING SYSTEM AND METHOD 审中-公开
    区域监测系统和方法

    公开(公告)号:WO2012146279A1

    公开(公告)日:2012-11-01

    申请号:PCT/EP2011/056669

    申请日:2011-04-27

    Applicant: TELECOM ITALIA S.p.A. ANTONINI, Roberto FICI, Gian Piero GASPARDONE, Marco

    Inventor: ANTONINI, Roberto FICI, Gian Piero GASPARDONE, Marco

    IPC: G08B21/12

    CPC classification number: G01N35/0099 G08B21/12

    Abstract: A monitoring system (100) for monitoring an environmental condition of an area (105) through the measurement of a corresponding environmental quantity is disclosed. The system comprises a static monitoring section (110) comprising a plurality of static sensor units (120); each static sensor unit is configured to collect first measure data relating to the environmental quantity in a respective portion of the area according to first predetermined scheduled routines. The system further comprises a mobile monitoring section (115) comprising at least one robot (125); each one of said at least one robot is configured to move itself within the area and is configured to collect second measure data relating to the environmental quantity in a portion of the area surrounding the at least one robot itself according to second predetermined scheduled routines. The system further includes a central unit (130) in communication relationships with the static sensor units and the at least one robot for receiving the first measure data and the second measure data and assessing the environmental condition of the area based on at least one between the received first and second measure data. The central unit is configured to perform at least one between: - conditioned to the assessing of an anomalous environmental condition from first measure data collected by at least one static sensor unit, commanding at least one robot to operate according to anomaly routines under the control of the central unit, and - conditioned to the assessing of an anomalous environmental condition from second measure data collected by at least one robot, commanding at least one static sensor unit to operate according to anomaly routines under the control of the central unit.

    Abstract translation: 公开了一种用于通过测量相应的环境量来监视区域(105)的环境状态的监控系统(100)。 该系统包括一个包括多个静态传感器单元(120)的静态监测部分(110)。 每个静态传感器单元被配置为根据第一预定调度程序来收集与该区域的相应部分中的环境量有关的第一测量数据。 所述系统还包括移动监视部分(115),其包括至少一个机器人(125); 所述至少一个机器人中的每一个被配置为在该区域内移动自身,并且被配置为根据第二预定的调度程序在至少一个机器人本身周围的区域的一部分中收集与环境量有关的第二测量数据。 所述系统还包括与所述静态传感器单元和所述至少一个机器人的通信关系的中央单元(130),用于接收所述第一测量数据和所述第二测量数据,并且基于所述第一测量数据和所述第二测量数据之间的至少一个来评估所述区域的环境状况 收到第一和第二个测量数据。 中央单元被配置为执行以下中的至少一个: - 根据由至少一个静态传感器单元收集的第一测量数据来评估异常环境条件,命令至少一个机器人根据异常程序在控制下进行操作 中央单元,并且由至少一个机器人收集的第二测量数据评估异常环境条件,命令至少一个静态传感器单元根据中央单元的控制下的异常程序进行操作。

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