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1.发明申请MOBILE BRAIN-BASED DEVICE HAVING A SIMULATED NERVOUS SYSTEM BASED ON THE HIPPOCAMPUS 有权具有基于海马的模拟神经系统的基于移动通信的设备公开(公告)号:US20110071968A1
公开(公告)日:2011-03-24
申请号:US12953880
申请日:2010-11-24
IPC分类号: G06N3/02
CPC分类号: G06N3/08 , G05D1/0088 , G05D1/0242 , G05D1/0246 , G05D1/0272 , G06N3/004 , Y02T10/82
摘要: A brain-based device (BBD) having a physical mobile device NOMAD controlling and under control by a simulated nervous system. The simulated nervous system is based on an intricate anatomy and physiology of the hippocampus and its surrounding neuronal regions including the cortex. The BBD integrates spatial signals from numerous objects in time and provides flexible navigation solutions to aid in the exploration of unknown environments. As NOMAD navigates in its real world environment, the hippocampus of the simulated nervous system organizes multi-modal input information received from sensors on NOMAD over timescales and uses this organization for the development of spatial and episodic memories necessary for navigation.
摘要翻译: 具有物理移动设备NOMAD控制并由模拟神经系统控制的基于脑的设备(BBD)。 模拟神经系统基于海马及其周围神经元区域(包括皮质)的复杂解剖学和生理学。 BBD可以及时集成来自众多对象的空间信号,并提供灵活的导航解决方案,以帮助探索未知环境。 随着NOMAD在现实环境中的导航,模拟神经系统的海马组织了通过时间尺度从NOMAD传感器接收到的多模态输入信息,并利用该组织来开发导航所需的空间和情景记忆。
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2.发明申请MOBILE BRAIN-BASED DEVICE HAVING A SIMULATED NERVOUS SYSTEM BASED ON THE HIPPOCAMPUS 有权具有基于海马的模拟神经系统的基于移动通信的设备公开(公告)号:US20090089229A1
公开(公告)日:2009-04-02
申请号:US12331133
申请日:2008-12-09
IPC分类号: G06N3/02
CPC分类号: G06N3/08 , G05D1/0088 , G05D1/0242 , G05D1/0246 , G05D1/0272 , G06N3/004 , Y02T10/82
摘要: A brain-based device (BBD) having a physical mobile device NOMAD controlling and under control by a simulated nervous system. The simulated nervous system is based on an intricate anatomy and physiology of the hippocampus and its surrounding neuronal regions including the cortex. The BBD integrates spatial signals from numerous objects in time and provides flexible navigation solutions to aid in the exploration of unknown environments. As NOMAD navigates in its real world environment, the hippocampus of the simulated nervous system organizes multi-modal input information received from sensors on NOMAD over timescales and uses this organization for the development of spatial and episodic memories necessary for navigation.
摘要翻译: 具有物理移动设备NOMAD控制并由模拟神经系统控制的基于脑的设备(BBD)。 模拟神经系统基于海马及其周围神经元区域(包括皮质)的复杂解剖学和生理学。 BBD可以及时集成来自众多对象的空间信号,并提供灵活的导航解决方案,以帮助探索未知环境。 随着NOMAD在现实环境中的导航,模拟神经系统的海马组织了通过时间尺度从NOMAD传感器接收到的多模态输入信息,并利用该组织来开发导航所需的空间和情景记忆。
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3.发明授权Mobile brain-based device having a simulated nervous system based on the hippocampus 有权具有基于海马的模拟神经系统的基于移动脑的装置公开(公告)号:US07467115B2
公开(公告)日:2008-12-16
申请号:US11179371
申请日:2005-07-12
IPC分类号: G06N5/00
CPC分类号: G06N3/08 , G05D1/0088 , G05D1/0242 , G05D1/0246 , G05D1/0272 , G06N3/004 , Y02T10/82
摘要: A brain-based device (BBD) having a physical mobile device NOMAD controlling and under control by a simulated nervous system. The simulated nervous system is based on an intricate anatomy and physiology of the hippocampus and its surrounding neuronal regions including the cortex. The BBD integrates spatial signals from numerous objects in time and provides flexible navigation solutions to aid in the exploration of unknown environments. As NOMAD navigates in its real world environment, the hippocampus of the simulated nervous system organizes multi-modal input information received from sensors on NOMAD over timescales and uses this organization for the development of spatial and episodic memories necessary for navigation.
摘要翻译: 具有物理移动设备NOMAD控制并由模拟神经系统控制的基于脑的设备(BBD)。 模拟神经系统基于海马及其周围神经元区域(包括皮质)的复杂解剖学和生理学。 BBD可以及时集成来自众多对象的空间信号,并提供灵活的导航解决方案,以帮助探索未知环境。 随着NOMAD在现实环境中的导航,模拟神经系统的海马组织了通过时间尺度从NOMAD传感器接收到的多模态输入信息,并利用该组织来开发导航所需的空间和情景记忆。
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4.发明授权Mobile brain-based device having a simulated nervous system based on the hippocampus 有权具有基于海马的模拟神经系统的基于移动脑的装置公开(公告)号:US08285657B2
公开(公告)日:2012-10-09
申请号:US12953880
申请日:2010-11-24
IPC分类号: G06N5/00
CPC分类号: G06N3/08 , G05D1/0088 , G05D1/0242 , G05D1/0246 , G05D1/0272 , G06N3/004 , Y02T10/82
摘要: A brain-based device (BBD) having a physical mobile device NOMAD controlling and under control by a simulated nervous system. The simulated nervous system is based on an intricate anatomy and physiology of the hippocampus and its surrounding neuronal regions including the cortex. The BBD integrates spatial signals from numerous objects in time and provides flexible navigation solutions to aid in the exploration of unknown environments. As NOMAD navigates in its real world environment, the hippocampus of the simulated nervous system organizes multi-modal input information received from sensors on NOMAD over timescales and uses this organization for the development of spatial and episodic memories necessary for navigation.
摘要翻译: 具有物理移动设备NOMAD控制并由模拟神经系统控制的基于脑的设备(BBD)。 模拟神经系统基于海马及其周围神经元区域(包括皮质)的复杂解剖学和生理学。 BBD可以及时集成来自众多对象的空间信号,并提供灵活的导航解决方案,以帮助探索未知环境。 随着NOMAD在现实环境中的导航,模拟神经系统的海马组织了通过时间尺度从NOMAD传感器接收到的多模态输入信息,并利用该组织来开发导航所需的空间和情景记忆。
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5.发明授权Mobile brain-based device having a simulated nervous system based on the hippocampus 有权具有基于海马的模拟神经系统的基于移动脑的装置公开(公告)号:US07844556B2
公开(公告)日:2010-11-30
申请号:US12331133
申请日:2008-12-09
IPC分类号: G06N5/00
CPC分类号: G06N3/08 , G05D1/0088 , G05D1/0242 , G05D1/0246 , G05D1/0272 , G06N3/004 , Y02T10/82
摘要: A brain-based device (BBD) having a physical mobile device NOMAD controlling and under control by a simulated nervous system. The simulated nervous system is based on an intricate anatomy and physiology of the hippocampus and its surrounding neuronal regions including the cortex. The BBD integrates spatial signals from numerous objects in time and provides flexible navigation solutions to aid in the exploration of unknown environments. As NOMAD navigates in its real world environment, the hippocampus of the simulated nervous system organizes multi-modal input information received from sensors on NOMAD over timescales and uses this organization for the development of spatial and episodic memories necessary for navigation.
摘要翻译: 具有物理移动设备NOMAD控制并由模拟神经系统控制的基于脑的设备(BBD)。 模拟神经系统基于海马及其周围神经元区域(包括皮质)的复杂解剖学和生理学。 BBD可以及时集成来自众多对象的空间信号,并提供灵活的导航解决方案,以帮助探索未知环境。 随着NOMAD在现实环境中的导航,模拟神经系统的海马组织了通过时间尺度从NOMAD传感器接收到的多模态输入信息,并利用该组织来开发导航所需的空间和情景记忆。
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