Patent application number | Description | Published |
20100230113 | MULTI-STAGE MODULATOR - Methods and systems for pulse generation assembly that includes a plurality of staged valves operably coupled serially in a bottomhole assembly of a wellbore tool. The plurality of staged valves are operated in a substantially synchronized manner, thereby generating a series of pressure pulses. The signal strength of the generated pulse signal is multiplied by the number of staged valves in the series, and the pulse generation assembly of the disclosure is less susceptible to jamming, shock, and erosion. Further, by sequentially stopping at least one stage of the assembly and then synchronously rotating other stages, amplitude modulation is accomplished. | 09-16-2010 |
20120001776 | SYSTEMS AND METHODS FOR COMPRESSING DATA AND CONTROLLING DATA COMPRESSION IN BOREHOLE COMMUNICATION - Systems and methods compress data and control data compression in borehole communication. The systems and methods convert original data collected by a sensor from a first domain into a second domain, wherein the original data is associated with one or more properties of an underground formation. A predetermined number of significant coefficients is selected from components of the second domain, wherein the predetermined number of significant coefficients are components of the second domain with largest amplitudes. The selected predetermined number of significant coefficients is quantized via an quantization technique and the selected predetermined number of significant coefficients is encoded into compressed data via an encoder. | 01-05-2012 |
20130231787 | DYNAMIC PHASE MACHINE AUTOMATION OF OIL & GAS PROCESSES - A method, apparatus, and program product facilitate the automation of an oil & gas process, e.g., a drilling process, through the use of a dynamic phase machine incorporating multiple autonomous agents. | 09-05-2013 |
20140286538 | LWD Real-Time Borehole Image Transmission - Data transmission from a bottom hole assembly (BHA) includes obtaining a scan from multiple scans forming a downhole data log of a borehole within a subterranean formation. The scan includes a sequence of data items from a sensor in the BHA located in the borehole. Each data item corresponds to an azimuth angle of the sensor. Further, compressed scan data is generated from the sequence of data items on a per-scan basis, and transmitted, using a pre-determined borehole telemetry, to a surface unit. | 09-25-2014 |
20150078625 | LWD Real-Time Borehole Image Transmission - Data transmission from a bottom hole assembly (BHA) includes obtaining a scan from multiple scans forming a downhole data log of a borehole within a subterranean formation. The scan includes a sequence of data items from a sensor in the BHA located in the borehole. Each data item corresponds to an azimuth angle of the sensor. Further, compressed scan data is generated from the sequence of data items on a per-scan basis, and transmitted, using a pre-determined borehole telemetry, to a surface unit. | 03-19-2015 |
Patent application number | Description | Published |
20090054084 | MOBILE VIRTUAL AND AUGMENTED REALITY SYSTEM - A method and apparatus for messaging within a mobile virtual and augmented reality system is provided herein. During operation a user can create “virtual graffiti” that will be left for a particular device to view as part of an augmented reality scene. The virtual graffiti will be assigned to a particular physical location. The virtual graffiti is then uploaded to a network server, along with the location and individuals who are able to view the graffiti as part of an augmented reality scene. When a device that is allowed to view the graffiti is near the location, the graffiti will be downloaded to the device and displayed as part of an augmented reality scene. | 02-26-2009 |
20090081959 | MOBILE VIRTUAL AND AUGMENTED REALITY SYSTEM - A method and apparatus for messaging within a mobile virtual and augmented reality system is provided herein. During operation a user can create “virtual graffiti” that will be left for a particular device to view as part of an augmented reality scene. The virtual graffiti will be assigned to a particular physical location or a part of an object that can be mobile. The virtual graffiti is then uploaded to a network server, along with the location and individuals who are able to view the graffiti as part of an augmented reality scene. When a device that is allowed to view the graffiti is near the location, the graffiti will be downloaded to the device and displayed as part of an augmented reality scene. | 03-26-2009 |
20090111434 | MOBILE VIRTUAL AND AUGMENTED REALITY SYSTEM - A method and apparatus for messaging within a mobile virtual and augmented reality system is provided herein. During operation a user can create “virtual graffiti” ( | 04-30-2009 |
20090237328 | MOBILE VIRTUAL AND AUGMENTED REALITY SYSTEM - A user can create “virtual graffiti” ( | 09-24-2009 |
20100066750 | MOBILE VIRTUAL AND AUGMENTED REALITY SYSTEM - A user can create “virtual graffiti” ( | 03-18-2010 |
20100194782 | METHOD AND APPARATUS FOR CREATING VIRTUAL GRAFFITI IN A MOBILE VIRTUAL AND AUGMENTED REALITY SYSTEM - A method and apparatus is provided for easily creating virtual graffiti that will be left for a particular device to view. During operation a device will be placed near a first point that is used to define a boundary for the virtual graffiti. The device will locate the first point, and use the point to define the boundary. The device will receive an image that is to be used as virtual graffiti, and will fit the image within the boundary of the virtual graffiti. For example, the device may be consecutively placed near four points that will define a polygon to be used as the boundary for the virtual graffiti. An image will then be received, and the image will be fit within the polygon. | 08-05-2010 |
20100214111 | MOBILE VIRTUAL AND AUGMENTED REALITY SYSTEM - A user can create “virtual graffiti” that will be left for a particular device to view as part of an augmented reality scene. The virtual graffiti will be assigned to a particular physical location or a part of an object that can be mobile. The virtual graffiti is then uploaded to a network server, along with the location and individuals who are able to view the graffiti as part of an augmented reality scene. When a device that is allowed to view the graffiti is near the location, the graffiti will be downloaded to the device and displayed as part of an augmented reality scene. To further enhance the user experience, the virtual graffiti can be dynamic, changing based on a context. For example, a user may leave a virtual graffiti message that changes with, for example, outside temperature, location, weather conditions, or any other context. | 08-26-2010 |
20120327120 | METHOD AND APPARATUS FOR CREATING VIRTUAL GRAFFITI IN A MOBILE VIRTUAL AND AUGMENTED REALITY SYSTEM - A method and system is provided for easily creating virtual graffiti that will be left for a particular device to view. During operation a device will be placed near a first point that is used to define a boundary for the virtual graffiti. The device will locate the first point, and use the point to define the boundary. The device will receive an image that is to be used as virtual graffiti, and will fit the image within or upon the boundary of the virtual graffiti. For example, the device may be consecutively placed near four points that will define a polygon to be used as the boundary for the virtual graffiti. An image will then be received, and the image will be fit within the polygon. Additionally, a device may create virtual graffiti from an image and a boundary. | 12-27-2012 |
Patent application number | Description | Published |
20130130486 | METHOD OF FORMING SILICIDE LAYERS - A method of forming silicide layers is disclosed, the method including: providing a silicon substrate which includes at least one first region and at least one second region; depositing a dielectric layer over the silicon substrate; forming at least one opening having a great width/depth ratio in the dielectric layer above the at least one first region, and forming at least one opening having a small width/depth ratio in the dielectric layer above the at least one second region; depositing a metal and performing a high-temperature annealing to form a thick silicide layer in each of the at least one opening above each of the at least one first region and to form a thin silicide layer in each of the at least one opening above each of the at least one second region; removing the remaining metal not formed into the silicide layers. | 05-23-2013 |
20140057405 | METHOD OF FABRICATING P-TYPE SURFACE-CHANNEL LDMOS DEVICE WITH IMPROVED IN-PLANE UNIFORMITY - A method of fabricating a P-type surface-channel laterally diffused metal oxide semiconductor device includes forming a gate structure with polysilicon and metal silicide, and the processes of channel implantation, long-time high-temperature drive-in, formation of a heavily doped N-type polysilicon sinker and boron doping of a polysilicon gate, are performed in this order, thereby ensuring the gate not to be doped with boron during its formation. The high-temperature drive-in process is allowed to be carried out to form a channel with a desired width, and a short channel effect which may cause penetration or electric leakage of the resulting device is prevented. As the polysilicon gate is not processed by any high-temperature drive-in process after it is doped with boron, the penetration of boron through a gate oxide layer and the diffusion of N-type impurity contained in the heavily doped polysilicon sinker into the channel or other regions are prevented. | 02-27-2014 |
20140131796 | RF LDMOS DEVICE AND FABRICATION METHOD THEREOF - A radio frequency (RF) laterally diffused metal oxide semiconductor (LDMOS) device is disclosed which additionally includes a lightly-doped P-type buried layer under a P-type channel region and a moderately-dope P-type buried layer in the lightly-doped P-type buried layer. The two buried layers result in a lower base resistance for an equivalent parasitic NPN transistor, thereby impeding the occurrence of snapback in the device. Additionally, an equivalent reverse-biased diode formed between the channel region and the buried layers is capable of clamping the drain-source voltage of the device and sinking redundant currents to a substrate thereof. Furthermore, the design of a gate oxide layer of the RF LDMOS device to have a greater thickness at a proximal end to a drain region can help to reduce the hot-carrier effect, and having a smaller thickness at a proximal end to the source region can improve the transconductance of the RF LDMOS device. | 05-15-2014 |