Patent application number | Description | Published |
20140096241 | CLOUD-ASSISTED METHOD AND SERVICE FOR APPLICATION SECURITY VERIFICATION - A method, device, and system for browser-based application security verification is disclosed. A client device requests a browser-based application from a web server. An application security module of the client device intervenes and transmits an application verification request to a cloud service system. The cloud service system retrieves data regarding the security of the application and source from cloud resources and a local database of the cloud server. The cloud service system then uses the data to authenticate the source and verify the security of the browser-based application. The cloud service system provides the client device with a recommendation regarding the security of the browser-based application and updates its local database. The client device may then consider the recommendation in determining whether to download or execute the browser-based application and provide feedback to the cloud service system. The client device may also perform a local security analysis after receiving the cloud service system's recommendation. | 04-03-2014 |
20140173089 | CLOUD DATA STORAGE LOCATION MONITORING - Technologies for monitoring data storage location for cloud data include a cloud monitoring server configured to communicate with one or more cloud customer computing devices and cloud service providers. The cloud monitoring server receives monitoring requests from the cloud customer computing devices and retrieves provider information from the cloud service providers. The cloud monitoring server compiles response data based on the monitoring requests and the provider information, and sends response data to the cloud customer computing devices. Cloud customer computing devices may send on-demand monitoring requests and/or continuous, policy-based monitoring requests. For policy-based monitoring, the cloud monitoring server continually monitors the provider information and provides response data when one or more conditions specified in the policy are satisfied. The cloud monitoring server may also make recommendations and provide feedback based on the monitoring requests or the provider information. Other embodiments are described and claimed. | 06-19-2014 |
20140181489 | CLOUD TRANSFORMABLE DEVICE - Technologies for performing a platform transformation on a computing device include transforming a transformable component of the computing device from a first hardware configuration in which a first set of hardware features is enabled to a second hardware configuration in which different hardware features are enabled. The computing device has a first capability when in the first configuration and a different capability when in the second configuration. In performing the platform transformation, the computing device determines a platform transformation build, establishes a communication connection with a cloud-based platform transformation service, and identifies and retrieves relevant platform definitions from the cloud-based platform transformation service. The platform definitions are used in effecting the desired platform transformation. | 06-26-2014 |
20140189120 | AD HOC DECENTRALIZED CLOUD INFRASTRUCTURE - Technologies for establishing and utilizing a decentralized cloud infrastructure using a plurality of mobile computing devices include broadcasting for the formation of the decentralized cloud computing and storage infrastructure and establishing wireless communications between the plurality of mobile computing devices. The plurality of mobile computing devices self-organize and cooperate with one another to establish a structured decentralized cloud infrastructure to expose and sharing resources, services, and/or applications for ad hoc or socially-driven decentralized, cloud computing purposes. | 07-03-2014 |
20150113556 | CONTEXT-AWARE LOCATION-BASED INFORMATION DISTRIBUTION - Technologies are presented that provide location-based information distribution to targeted media devices. A method of distributing information by an information server in a networked media system may include determining a location of a first media device, determining one or more topics being consumed on the first media device, obtaining information categorically associated with one or more of the determined topics or the location of the first media device, and providing the obtained information to one or more of the first media device or a second media device in use within a predetermined proximity of the first media device. Determination of the location of the first media device may include determining whether the first media device is within a predetermined proximity of one or more other media devices with fixed known locations or of the information server. The provided information may include such information as advertisements, media recommendations, etc. | 04-23-2015 |
Patent application number | Description | Published |
20100057046 | SYSTEMS FOR CHARACTERIZING PHYSIOLOGIC PARAMETERS AND METHODS FOR USE THEREWITH - Disclosed herein are systems and methods for continuously measuring a physiologic parameter of a patient, and can also include adjusting therapy based upon the physiologic parameter. The system can include a first probe having an elongate body, the probe configured to be inserted into a first location within a patient. At least one sensor can be operably connected to the first probe and configured to continuously provide real-time feedback information on one or more physiologic parameters at the first location within the patient, such as pH, pCO | 03-04-2010 |
20100204556 | PHYSIOLOGICAL PARAMETER SENSORS - A blood gas concentration sensor includes a first housing at least partially defining a first chamber containing a first electrolyte, a first electrode in the first chamber, and a second electrode in the first chamber and substantially parallel to the first electrode. The first housing includes a gas permeable material. The first electrode includes sides and an end. The sides of the first electrode are surrounded by a first insulating layer. The end of the first electrode is in contact with the first electrolyte. The end of the first electrode is not in contact with the first housing. The first electrode includes a first metal. The second electrode includes a second metal. A potential difference between the first metal and the second metal is at least about 0.5 volts. | 08-12-2010 |
20100204605 | PHYSIOLOGICAL PARAMETER SENSORS - A temperature sensor includes a substantially uniform substrate including a first material and including a first surface, a first contact over the first surface and proximate to a first side of the substrate, and a second contact over the first surface and proximate to a second side of the substrate. The second side is opposite the first side. The second contact is spaced from the first contact by a first distance. The first contact includes a second material different from the first material. The second contact includes the second material. Upon application of a voltage between the first contact and the second contact, a measurable current propagates through a substantial portion of the substrate. | 08-12-2010 |