公开(公告)号：US20130084889A1

公开(公告)日：2013-04-04

申请号：US13696152

申请日：2010-05-07

Applicant: Johannes Schmitt ,  Andreas Reinhardt ,  Matthias Kropff

Inventor： Johannes Schmitt ,  Andreas Reinhardt ,  Matthias Kropff

IPC: H04W24/00

CPC classification number: H04W24/00 ,  G01S1/68 ,  G01S5/0009

Abstract: In order to determine the spatial position of a device (D), the device receives position data relating to a plurality of transmitters (T1, . . . , Tn) in the area surrounding the device, each of which transmitters emits its own position data in the form of radio signals (PS1, . . . , PSj). The device uses the received position data relating to at least some of these transmitters to determine its own position. The transmitters are parts of a plurality of second communication devices (T1, . . . , Tn) each having at least two radio interfaces (RI1, RI2) of a first type (RI1) and of a second type (RI2) in a network (N) of a plurality of first communication devices (AP1, . . . , APm) each having at least one radio interface of the second type (RI2), wherein the network is switched via the radio interfaces of the second type (RI2). At least some of the first and second communication devices are set up to emit first signals (BS1, . . . , BSk) via the radio interfaces of the second type (RI2).

Abstract translation: 为了确定设备（D）的空间位置，设备在设备周围的区域中接收与多个发射机（T1，...，Tn）相关的位置数据，每个发射机发射自己的位置数据 以无线电信号（PS1，...，PSj）的形式。 该设备使用与这些发射机中的至少一些相关的接收位置数据来确定其自己的位置。 发射机是多个第二通信设备（T1，...，Tn）的部分，每个第二通信设备具有网络中的第一类型（RI1）和第二类型（RI2）的至少两个无线电接口（RI1，RI2） （RI2）的多个第一通信设备（AP1，...，APm）中的每一个具有至少一个无线接口（RI2）的多个第一通信设备（N），其中，经由第二类型（RI2）的无线接口 。 第一和第二通信设备中的至少一些被设置成经由第二类型（RI2）的无线电接口发射第一信号（BS1，...，BSk）。

公开(公告)号：US08761796B2

公开(公告)日：2014-06-24

申请号：US13696152

申请日：2010-05-07

Applicant: Johannes Schmitt ,  Andreas Reinhardt ,  Matthias Kropff

Inventor： Johannes Schmitt ,  Andreas Reinhardt ,  Matthias Kropff

IPC: H04M11/04

CPC classification number: H04W24/00 ,  G01S1/68 ,  G01S5/0009

Abstract: In order to determine the spatial position of a device (D), the device receives position data relating to a plurality of transmitters (T1, . . . , Tn) in the area surrounding the device, each of which transmitters emits its own position data in the form of radio signals (PS1, . . . , PS j). The device uses the received position data relating to at least some of these transmitters to determine its own position. The transmitters are parts of a plurality of second communication devices (T1, . . . , Tn) each having at least two radio interfaces (RI1, RI2) of a first type (RI1) and of a second type (RI2) in a network (N) of a plurality of first communication devices (AP1, . . . , APm) each having at least one radio interface of the second type (RI2), wherein the network is switched via the radio interfaces of the second type (RI2). At least some of the first and second communication devices are set up to emit first signals (BS1, . . . , BSk) via the radio interfaces of the second type (RI2).

Abstract translation: 为了确定设备（D）的空间位置，设备在设备周围的区域中接收与多个发射机（T1，...，Tn）相关的位置数据，每个发射机发射自己的位置数据 以无线电信号（PS1，...，PS j）的形式。 该设备使用与这些发射机中的至少一些相关的接收位置数据来确定其自己的位置。 发射机是多个第二通信设备（T1，...，Tn）的部分，每个第二通信设备具有网络中的第一类型（RI1）和第二类型（RI2）的至少两个无线电接口（RI1，RI2） （RI2）的多个第一通信设备（AP1，...，APm）中的每一个具有至少一个无线接口（RI2）的多个第一通信设备（N），其中，经由第二类型（RI2）的无线接口 。 第一和第二通信设备中的至少一些被设置成经由第二类型（RI2）的无线电接口发射第一信号（BS1，...，BSk）。

公开(公告)号：US08868156B1

公开(公告)日：2014-10-21

申请号：US10149045

申请日：2000-11-22

Applicant: Hans W. P. Koops ,  Andreas Reinhardt

Inventor： Hans W. P. Koops ,  Andreas Reinhardt

IPC: A61B5/00

CPC classification number: G01N21/6452 ,  G01J3/02 ,  G01J3/0256 ,  G01J3/0259 ,  G01J3/4406 ,  G01J3/443 ,  G01N2021/6417 ,  G01N2021/6478

Abstract: A device (1) for use in optical spectroscopy and a method for its manufacture are described. The device includes at least one light source (8) and at least one spectrometer (3) fabricated integratively, the optical components of the at least one spectrometer (3) being optical microcomponents (11,13,16,19,20,21) which are mounted integratively on the top and/or bottom side (9,12) of a substrate board (2). In the method according to the present invention, at least one light source (8) is mounted on a substrate board (2), and at least one spectrometer (3) is produced monolithically in a three-dimensional integration on the substrate board (2). In this context, the spectrometer (3) that is produced according to the method is assembled from optical microcomponents (11,13,16,19,20,21).

Abstract translation: 描述了用于光谱学的装置（1）及其制造方法。 所述装置包括至少一个光源（8）和至少一个光谱仪（3），所述至少一个光谱仪（3）被整体地制造，所述至少一个光谱仪（3）的光学部件是光学微组件（11,13,16,19,20,21） 它们一体地安装在基板（2）的顶部和/或底部（9,12）上。 在根据本发明的方法中，至少一个光源（8）安装在基板（2）上，并且至少一个光谱仪（3）在基板（2）上以三维积分制造 ）。 在本文中，根据该方法制备的光谱仪（3）由光学微组件（11,13,16,19,20,21）组装。