Abstract: Example implementations as described herein are directed to the use of an end-to-end asset recovery platform in conjunction with historical data of a plurality of assets. In example implementations, the end-to-end asset recovery platform tracks assets throughout the use and recovery lifecycles to provide complete visibility and enable informed decision-making for stakeholders.

Abstract: Example implementations described herein are directed to an asset management system configured to facilitate real-time inventory recognition with image analysis tagged with positional information. The example implementations described herein also provide the method and process to improve the accuracy of the pipe detection for counting with various approaches. Referring the expected number of the pipes, example implementations utilize the pipe detection algorithm, as well as the bounding box of the pipe stack, use the knowledge of the physical size of the pipe stack, and analyze a pipe stack from the images of two directions at the end.

Abstract: Example implementations described herein are directed to the projection of two dimensional (2D) image recognition results to three dimensional (3D) space by using 3D reconstructed data to realize accurate object counting, identification, scene re-organization, and so on in accordance with the desired implementation. Through the example implementations described herein, more accurate objection detection can be provided than regular 2D object detection.

Abstract: Example implementations described herein are directed to an asset management system configured to facilitate real-time inventory recognition with image analysis tagged with positional information. The example implementations described herein also provide the method and process to improve the accuracy of the pipe detection for counting with various approaches. Referring the expected number of the pipes, example implementations utilize use the pipe detection algorithm as well as the bounding box of the pipe stack, use the knowledge of the physical size of the pipe stack, and analyze a pipe stack from the images of two directions at the end.

Abstract: Example implementations relate to non-volatile storage of management data. In example implementations, a system is disclosed, the system including a plurality of computing devices, a management device, and a non-volatile memory including a plurality of management spaces corresponding to the plurality of computing devices. In example implementations, at least one of the plurality of management spaces is to be accessible by the management device and by the corresponding computing device, be inaccessible by computing devices other than the corresponding computing device, and store management data associated with the corresponding computing device.

Abstract: According to an example, memory-driven OOB management may include OOB management of a computing node of a plurality of computing nodes. The OOB management may be executed independent of an OS of the computing node. A memory fabric may be used to provide for shared access to a plurality of NVM nodes by the plurality of computing nodes.

Abstract: In some examples, a system receives first sensor data from respective wind turbines of a plurality of wind turbines. For instance, the first sensor data may include at least a power output and a wind speed per time interval. The system trains at least one respective model for each respective wind turbine based on the first sensor data received from that respective wind turbine. Further, the system receives, for a second time period, respective second sensor data from the respective wind turbines. The system executes, using the respective second sensor data, the respective model trained using the first sensor data received from that respective wind turbine to determine, for each respective wind turbine, a predicted power output for an upcoming period. The predicted power outputs may be aggregated to determine a total predicted power output and at least one action is performed based on the total predicted power output.

Abstract: In some examples, a system receives first sensor data from respective wind turbines of a plurality of wind turbines. For instance, the first sensor data may include at least a power output and a wind speed per time interval. The system trains at least one respective model for each respective wind turbine based on the first sensor data received from that respective wind turbine. Further, the system receives, for a second time period, respective second sensor data from the respective wind turbines. The system executes, using the respective second sensor data, the respective model trained using the first sensor data received from that respective wind turbine to determine, for each respective wind turbine, a predicted power output for an upcoming period. The predicted power outputs may be aggregated to determine a total predicted power output and at least one action is performed based on the total predicted power output.

Abstract: According to an example, memory-driven OOB management may include OOB management of a computing node of a plurality of computing nodes. The OOB management may be executed independent of an OS of the computing node. A memory fabric may be used to provide for shared access to a plurality of NVM nodes by the plurality of computing nodes.

Abstract: Example implementations relate to non-volatile storage of management data. In example implementations, a system is disclosed, the system including a plurality of computing devices, a management device, and a non-volatile memory including a plurality of management spaces corresponding to the plurality of computing devices. In example implementations, at least one of the plurality of management spaces is to be accessible by the management device and by the corresponding computing device, be inaccessible by computing devices other than the corresponding computing device, and store management data associated with the corresponding computing device.

Abstract: A process for providing a print-augmented broadcast signal for transmission to one or more convention broadcast receiver includes receiving a broadcast signal comprising (i) standard content for a particular broadcast program and (ii) a non-content portion. Supplemental content which is associated with the standard content of the particular broadcast program is additionally received. Next, the supplemental content is combined onto the non-content portion of the broadcast signal to form a print-augmented broadcast signal, the print-augmented broadcast signal comprising the standard content, which can be rendered on a conventional broadcast receiver, and the supplemental content, which is printable on-demand at a destination conventional broadcast receiver substantially concurrently with the rendering of the standard content.

Abstract: A system for providing a change management service (CM) to at least one client therein is provided. The system includes a peer-to-peer (P2P) system imposed on the network system, wherein the at least one client is a peer in the P2P system, a syndication feed operable to provide a notification of the CM service to the at least one client, and at least one host operable as a source in the P2P system to provide the CM service to the at least one client through the imposed P2P system.

Abstract: Cryptographic keys are distributed to computer systems to be remotely managed by a management node. First secure channels are established between the management node and trusted computing platforms associated with the computer systems. Cryptographic keys are sent to the trusted computing platforms via the first secure channels, wherein the cryptographic keys are stored in the trusted computing platforms and retrieved from the trusted computing platforms by the computer systems. Second secure channels are established with the computer systems using the retrieved cryptographic keys. Commands are remotely executed on one or more of the computer systems via the second secure channels.

Abstract: A network device includes a web server chip that is connectable to a computer network. The web server chip includes an embedded processor that is programmable to function as a manageability web server, obtain manageability information about the network device and send the manageability to a network manager. The web server chip further includes an interface for communicating with an I2C bus in the network device. The embedded processor is programmable to obtain manageability information about devices connected to the I2C bus. The embedded processor is also programmable to control fan controllers, power supply controllers and other controllers connected to the I2C bus. This, in turn, allows a network manager to command the web server chip to remotely power up and power down the network device. Thus, the web server chip can perform network management functions without burdening the host processor of the network device.

Abstract: A system for providing a network booting (NB) of at least one client therein is provided. The system includes a torrent-based peer-to-peer (P2P) system imposed on the network system, wherein the at least one client is a peer in the P2P system; and at least one host operable as a source in the torrent-based P2P system to provide at least one NB application to the at least one client through the torrent-based P2P system for network booting of the at least one client.

Abstract: Systems and methods for collecting viewership data of television and radio broadcast programs. The methods include receiving an AV signal of a broadcast program and supplementary content which contains a tag identifying the broadcast program. The supplementary content is combined with the AV signal to form a data-augmented signal which is subsequently modulated with a carrier signal to form a transmit signal for broadcasting to receivers. Each receiver includes a decoder for extracting the supplementary content and recording the tag identity and time the tag is received. The recorded information is subsequently output to an electronic device or sent directly to a viewership data collection entity.

Abstract: A system for providing a change management service (CM) to at least one client therein is provided. The system includes a peer-to-peer (P2P) system imposed on the network system, wherein the at least one client is a peer in the P2P system, a syndication feed operable to provide a notification of the CM service to the at least one client, and at least one host operable as a source in the P2P system to provide the CM service to the at least one client through the imposed P2P system.

Abstract: Systems and methods for delivering program related contents to electronic devices using existing broadcast networks. The methods include receiving a program signal of a program content and supplementary content which is associated thereto, combining the supplementary content with the program signal to form a data-augmented signal which is subsequently modulated with a carrier signal for broadcasting to conventional broadcast receivers. At the receiver, the supplementary content is recovered and delivered to the electronic devices at substantially the same time as the program content is rendered at the receivers.

Abstract: A process for providing a print-augmented broadcast signal for transmission to one or more convention broadcast receiver includes receiving a broadcast signal comprising (i) standard content for a particular broadcast program and (ii) a non-content portion. Supplemental content which is associated with the standard content of the particular broadcast program is additionally received. Next, the supplemental content is combined onto the non-content portion of the broadcast signal to form a print-augmented broadcast signal, the print-augmented broadcast signal comprising the standard content, which can be rendered on a conventional broadcast receiver, and the supplemental content, which is printable on-demand at a destination conventional broadcast receiver substantially concurrently with the rendering of the standard content.

Abstract: Web access functionality is embedded in a device to enable low cost widely accessible and enhanced user interface functions for the device. A web server in the device provides access to the user interface functions for the device through a device web page. A network interface in the device enables access to the web page by a web browser such that a user of the web browser accesses the user interface functions for the device through the web page.