公开(公告)号：US08774622B2

公开(公告)日：2014-07-08

申请号：US13270843

申请日：2011-10-11

Applicant: Andrei Weintraub ,  Maoz Ohad

Inventor： Andrei Weintraub ,  Maoz Ohad

IPC: H04B10/08

CPC classification number: H04B10/035 ,  B64F1/20 ,  H04B10/807 ,  H05B37/0263

Abstract: Control and monitoring of airfield lighting from a control tower and other maintenance/supervisory locations uses double loop self healing fiber optic communications circuits to enhances speed of operation even with large and complex airfield lighting system requirements, and significantly increased reliability and operating lifetime thereof. A plurality of local light control and monitoring groups are used, wherein each group has at least one fiber optic communications concentrator that independently communicates with light controllers within the group and the remote supervisory control and monitoring systems in the control tower and other locations. This allows faster control response of the lamps in each of the airfield light fixtures, and monitoring concentration of operational data within each group. Each of the at least one fiber optic concentrators is optically coupled to double loop self healing fiber optic communications backbone circuits coupled to main and backup computer supervisory control systems for redundancy purposes.

Abstract translation: 控制和监控来自控制塔和其他维护/监控位置的机场照明使用双回路自愈光纤通信电路，即使在大型和复杂的机场照明系统要求下也能提高运行速度，并显着增加其可靠性和使用寿命。 使用多个本地光控制和监视组，其中每个组具有至少一个光纤通信集中器，其独立地与组内的光控制器以及控制塔和其他位置中的远程监控和监视系统通信。 这允许在每个机场照明装置中的灯的控制响应更快，并且监视每组内的操作数据的集中。 所述至少一个光纤聚光器中的每一个光学耦合到耦合到主计算机和备用计算机监视控制系统的双回路自愈光纤通信主干电路，用于冗余目的。

公开(公告)号：US20140321846A1

公开(公告)日：2014-10-30

申请号：US14324988

申请日：2014-07-07

Applicant: Maoz Ohad ,  Andrei Weintraub

Inventor： Maoz Ohad ,  Andrei Weintraub

IPC: H04B10/035 ,  H04B10/80 ,  H05B37/02

CPC classification number: H04B10/035 ,  B64F1/20 ,  H04B10/807 ,  H05B37/0263

Abstract: Control and monitoring of airfield lighting from a control tower and other maintenance/supervisory locations uses double loop self healing fiber optic communications circuits to enhances speed of operation even with large and complex airfield lighting system requirements, and significantly increased reliability and operating lifetime thereof. A plurality of local light control and monitoring groups are used, wherein each group has at least one fiber optic communications concentrator that independently communicates with light controllers within the group and the remote supervisory control and monitoring systems in the control tower and other locations. This allows faster control response of the lamps in each of the airfield light fixtures, and monitoring concentration of operational data within each group. Each of the at least one fiber optic concentrators is optically coupled to double loop self healing fiber optic communications backbone circuits coupled to main and backup computer supervisory control systems for redundancy purposes.

Abstract translation: 控制和监控来自控制塔和其他维护/监控位置的机场照明使用双回路自愈光纤通信电路，即使在大型和复杂的机场照明系统要求下也能提高运行速度，并显着增加其可靠性和使用寿命。 使用多个本地光控制和监视组，其中每个组具有至少一个光纤通信集中器，其独立地与组内的光控制器以及控制塔和其他位置中的远程监控和监视系统通信。 这允许在每个机场照明装置中的灯的控制响应更快，并且监视每组内的操作数据的集中。 所述至少一个光纤聚光器中的每一个光学耦合到耦合到主计算机和备用计算机监视控制系统的双回路自愈光纤通信主干电路，用于冗余目的。

公开(公告)号：US20120189298A1

公开(公告)日：2012-07-26

申请号：US13270843

申请日：2011-10-11

Applicant: Maoz Ohad ,  Andrei Weintraub

Inventor： Maoz Ohad ,  Andrei Weintraub

IPC: H04B10/08

CPC classification number: H04B10/035 ,  B64F1/20 ,  H04B10/807 ,  H05B37/0263

Abstract: Control and monitoring of airfield lighting from a control tower and other maintenance/supervisory locations uses double loop self healing fiber optic communications circuits to enhances speed of operation even with large and complex airfield lighting system requirements, and significantly increased reliability and operating lifetime thereof. A plurality of local light control and monitoring groups are used, wherein each group has at least one fiber optic communications concentrator that independently communicates with light controllers within the group and the remote supervisory control and monitoring systems in the control tower and other locations. This allows faster control response of the lamps in each of the airfield light fixtures, and monitoring concentration of operational data within each group. Each of the at least one fiber optic concentrators is optically coupled to double loop self healing fiber optic communications backbone circuits coupled to main and backup computer supervisory control systems for redundancy purposes.

Abstract translation: 控制和监控来自控制塔和其他维护/监控位置的机场照明使用双回路自愈光纤通信电路，即使在大型和复杂的机场照明系统要求下也能提高运行速度，并显着增加其可靠性和使用寿命。 使用多个本地光控制和监视组，其中每个组具有至少一个光纤通信集中器，其独立地与组内的光控制器以及控制塔和其他位置中的远程监控和监视系统通信。 这允许在每个机场照明装置中的灯的控制响应更快，并且监视每组内的操作数据的集中。 所述至少一个光纤聚光器中的每一个光学耦合到耦合到主计算机和备用计算机监视控制系统的双回路自愈光纤通信主干电路，用于冗余目的。