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    • 2. 发明授权
    • Time-divided transmission between adjacent cells
    • 相邻单元之间的时分传输
    • US07315532B2
    • 2008-01-01
    • US10865171
    • 2004-06-09
    • Janne AaltonenJuha SaloPekka Talmola
    • Janne AaltonenJuha SaloPekka Talmola
    • H04J3/00
    • H04W16/02H04H20/18H04H20/42H04H20/46H04H20/67H04H20/72H04W16/12
    • In a DVB-T network, a single channel is shared between transmitters associated with adjacent cells on a time-division basis. Timing allocation information signals are received at each transmitter, where it is determined therefrom and from a common time reference, such as a GPS receiver or atomic clock, when transmission is and is not allowed. Each of the transmitters then transmits on the channel at different times. The channel may carry Internet Protocol Data Cast Services. The timing allocation may be varied so that transmitters have unequal shares. The allocation may be dynamically controllable depending on demand. Using the invention, a saving of frequency spectrum is obtained without requiring channel rasterisation.
    • 在DVB-T网络中,单个信道在时分基础上与相邻小区关联的发射机之间共享。 定时分配信息信号在每个发射机处被接收,在那里它被确定,并且在诸如GPS接收机或原子钟之类的公共时间基准时,当传输是不允许的时候。 然后,每个发射机在不同的时间在信道上发送。 该频道可以携带因特网协议数据传输服务。 时间分配可以变化,使得发射机具有不相等的份额。 分配可以根据需求动态地控制。 使用本发明,在不需要信道光栅化的情况下获得频谱的保存。
    • 4. 发明授权
    • Receiving devices
    • 接收设备
    • US07970369B2
    • 2011-06-28
    • US11921701
    • 2005-06-07
    • Janne AaltonenPekka Talmola
    • Janne AaltonenPekka Talmola
    • H04B1/18
    • H04H40/18H03J1/0075H04N5/50H04N21/4345H04N21/4383H04N21/4524H04N21/6112
    • A network includes a service provider, a plurality of transmitters and a receiving device. The receiving device identifies the frequencies at which broadcast services are provided by a transmitter local to the receiving device. A search is carried out until a signal is received by the receiving device (S4.1). Then, the receiving device looks-up the transmitter (step S4.2). This involves searching the table 29 and identifying the row 30 that includes data corresponding to the frequency of the found signal. Optionally, it is determined whether or not there is only one candidate transmitter (step S4.3), by determining how many rows 30 in the table 29 include data corresponding to the frequency of the found signal. If there is more than one row, then the transmitter is disambiguated (step S4.4.).
    • 网络包括服务提供商,多个发射机和接收设备。 接收设备识别由接收设备本地的发射机提供广播服务的频率。 进行搜索,直到接收装置接收到信号(S4.1)。 然后,接收装置查找发射机(步骤S4.2)。 这涉及搜索表29并识别包括与找到的信号的频率相对应的数据的行30。 可选地,通过确定表29中的多少行30包括对应于找到的信号的频率的数据来确定是否仅存在一个候选发送器(步骤S4.3)。 如果有多行,则发射机消歧(步骤S4.4。)。
    • 5. 发明申请
    • Receiving devices
    • 接收设备
    • US20090122204A1
    • 2009-05-14
    • US11921701
    • 2005-06-07
    • Janne AaltonenPekka Talmola
    • Janne AaltonenPekka Talmola
    • H04N5/50
    • H04H40/18H03J1/0075H04N5/50H04N21/4345H04N21/4383H04N21/4524H04N21/6112
    • A network includes a service provider, a plurality of transmitters and a receiving device. The receiving device identifies the frequencies at which broadcast services are provided by a transmitter local to the receiving device. A search is carried out until a signal is received by the receiving device (S4.1). Then, the receiving device looks-up the transmitter (step S4.2). This involves searching the table 29 and identifying the row 30 that includes data corresponding to the frequency of the found signal. Optionally, it is determined whether or not there is only one candidate transmitter (step S4.3), by determining how many rows 30 in the table 29 include data corresponding to the frequency of the found signal. If there is more than one row, then the transmitter is disambiguated (step S4.4.).
    • 网络包括服务提供商,多个发射机和接收设备。 接收设备识别由接收设备本地的发射机提供广播服务的频率。 进行搜索,直到接收装置接收到信号(S4.1)。 然后,接收装置查找发射机(步骤S4.2)。 这涉及搜索表29并识别包括与找到的信号的频率相对应的数据的行30。 可选地,通过确定表29中的多少行30包括对应于找到的信号的频率的数据来确定是否仅存在一个候选发送器(步骤S4.3)。 如果有多行,则发射机消歧(步骤S4.4。)。