Norma
Norma Alcantar, Tampa, FL US
Patent application number | Description | Published |
---|---|---|
20100068264 | NIOSOME-HYDROGEL DRUG DELIVERY SYSTEM - Localized drug delivery systems are effective means to administer therapeutic concentrations and controlled release of drugs. A delivery system consisting of non-ionic surfactant vesicles (niosomes) packaged within a biodegradable, temperature and pH sensitive hydrogel network was developed. Drug behaviors were modeled using a fluorescent dye with similar physical properties as therapeutic drugs for cancer. The niosomes were embedded into a biodegradable hydrogel providing a stable niosome environment. A cross linked chitosan was used as the hydrogel, which is a liquid at room temperature, and gels inside the body. Depending on the conditions to which individual niosomes are exposed, the release rate can be controlled to last from 24 hours to more than 3 months. | 03-18-2010 |
Norma Hill, Fairfield, AL US
Patent application number | Description | Published |
---|---|---|
20130021534 | Touchscreen Remote and Means of Locating - Disclosed is a touchscreen remote control device and system having means of locating the remote if misplaced, wherein the remote includes an imbedded receiver, television control emitter, a signal generator and a touchscreen interface. A corresponding television or electronic device includes three modes of locating the remote, including an audible tone alert, a voice messaging alert and a means of activating the backlight of the remote touchscreen for low light visualization. The remote is a structure that includes a touchscreen for control purposes and for interfacing with the television, wherein the remote includes rechargeable batteries and a speaker for transmitting the audible locating signal upon request. | 01-24-2013 |
Norma Lovhaugen, Asker NO
Patent application number | Description | Published |
---|---|---|
20100073454 | COMPUTER-PROCESSOR BASED INTERFACE FOR TELEPRESENCE SYSTEM, METHOD AND COMPUTER PROGRAM PRODUCT - A computer-implemented interface for a local telepresence video conferencing facility, pre-assigns displays at the local telepresence video conferencing facility to respective video images from remote telepresence video conference facilities such that respective video images from the remote telepresence video conference facilities will be displayed on corresponding displays at the local telepresence video conferencing facility once communications connections are made. A controller pre-assigns the displays according to control commands from a tactile input device prior to establishing the communication connections with the remote telepresence video conference facilities. A touchscreen display presents avatars of remote conference participants to illustrate pre-assignments of displays to particular remote telepresence video conference facilities prior to the communication connections being made. | 03-25-2010 |
Norma Løvhaugen, Asker NO
Patent application number | Description | Published |
---|---|---|
20140063178 | SYSTEM AND METHOD FOR COLLABORATION REVELATION AND PARTICIPANT STACKING IN A NETWORK ENVIRONMENT - A method is provided in one example embodiment and includes receiving video data associated with a meeting in a video conferencing environment; and displaying a plurality of images of participants of the meeting around a presenter or around collaboration material such that an overview of the participants is rendered on a display. The presenter or the collaboration material is rendered near a middle portion of the display. At least some of the participants are at one or more locations, which are remote from the display. | 03-06-2014 |
Norma Sosa Cortes, Yorktown Heights, NY US
Patent application number | Description | Published |
---|---|---|
20100307572 | Heterojunction III-V Photovoltaic Cell Fabrication - A method for forming a heterojunction III-V photovoltaic (PV) cell includes performing layer transfer of a base layer from a wafer of a III-V substrate, the base layer being less than about 20 microns thick; forming an intrinsic layer on the base layer; forming an amorphous silicon layer on the intrinsic layer; and forming a transparent conducting oxide layer on the amorphous silicon layer. A heterojunction III-V photovoltaic (PV) cell includes a base layer comprising a III-V substrate, the base layer being less than about 20 microns thick; an intrinsic layer located on the base layer; an amorphous silicon layer located on the intrinsic layer; and a transparent conducting oxide layer located on the amorphous silicon layer. | 12-09-2010 |
20110048516 | Multijunction Photovoltaic Cell Fabrication - A method for fabrication of a multijunction photovoltaic (PV) cell includes providing a stack comprising a plurality of junctions on a substrate, each of the plurality of junctions having a respective bandgap, wherein the plurality of junctions are ordered from the junction having the smallest bandgap being located on the substrate to the junction having the largest bandgap being located on top of the stack; forming a top metal layer, the top metal layer having a tensile stress, on top of the junction having the largest bandgap; adhering a top flexible substrate to the metal layer; and spalling a semiconductor layer from the substrate at a fracture in the substrate, wherein the fracture is formed in response to the tensile stress in the top metal layer. | 03-03-2011 |
20110048517 | Multijunction Photovoltaic Cell Fabrication - A method for fabrication of a multijunction photovoltaic (PV) cell includes forming a stack comprising a plurality of junctions on a substrate, each of the plurality of junctions having a respective bandgap, wherein the plurality of junctions are ordered from the junction having the largest bandgap being located on the substrate to the junction having the smallest bandgap being located on top of the stack; forming a metal layer, the metal layer having a tensile stress, on top of the junction having the smallest bandgap; adhering a flexible substrate to the metal layer; and spalling a semiconductor layer from the substrate at a fracture in the substrate, wherein the fracture is formed in response to the tensile stress in the metal layer. | 03-03-2011 |
20130000707 | Multijunction Photovoltaic Cell Fabrication - A method for fabrication of a multijunction photovoltaic (PV) cell includes forming a stack comprising a plurality of junctions on a substrate, each of the plurality of junctions having a respective bandgap, wherein the plurality of junctions are ordered from the junction having the largest bandgap being located on the substrate to the junction having the smallest bandgap being located on top of the stack; forming a metal layer, the metal layer having a tensile stress, on top of the junction having the smallest bandgap; adhering a flexible substrate to the metal layer; and spalling a semiconductor layer from the substrate at a fracture in the substrate, wherein the fracture is formed in response to the tensile stress in the metal layer. | 01-03-2013 |
20130000708 | Multijunction Photovoltaic Cell Fabrication - A multijunction photovoltaic (PV) cell includes a bottom flexible substrate and a bottom metal layer located on the bottom flexible substrate. The multijunction photovoltaic cell also includes a semiconductor layer located on the bottom metal layer and a stack having a plurality of junctions located on the semiconductor layer, each of the plurality of junctions having a respective bandgap. The pluralities of junctions are ordered from the junction having the smallest bandgap being located on the substrate to the junction having the largest bandgap being located on top of the stack. | 01-03-2013 |
20140299181 | Heterojunction III-V Photovoltaic Cell Fabrication - A heterojunction III-V photovoltaic (PV) cell includes a base layer comprising a III-V substrate, the base layer being less than about 20 microns thick; an intrinsic layer located on the base layer; an amorphous silicon layer located on the intrinsic layer; and a transparent conducting oxide layer located on the amorphous silicon layer. | 10-09-2014 |
Norma Steveley, Seattle, WA US
Patent application number | Description | Published |
---|---|---|
20150029938 | SYSTEMS AND METHODS FOR PUSH-TO-TALK VOICE COMMUNICATION OVER VOICE OVER INTERNET PROTOCOL NETWORKS - Push to talk (PTT) devices that communicate packet-based voice communications are disclosed. An example PTT device receives voice packets via a packet-based communication network from another PTT device. Voice information in the received voice packets are used to reconstruct the voice communication. The receiving PTT device is able to identify an occurrence of at least one delayed, corrupted or lost voice packet, and then communicate a packet re-transmit request to the other PTT device requesting a replacement voice packet that has a portion of the voice communication that is identical to the voice communication portion of the delayed, corrupted or lost voice packet. The voice communication may then be repaired based on the received replacement voice packet. While the voice communication is being repaired, a comfort tone may be generated so that the listener of the PTT device understands that the voice communication is being repaired. | 01-29-2015 |
Norma Wigutoff, Seattle, WA US
Patent application number | Description | Published |
---|---|---|
20110247898 | PORTABLE STEPPING SYSTEM - A stepping platform includes an upper step platform and a lower step platform. The stepping platform may be manually moved from a stored position to a deployed, and vice-versa. The upper step platform includes a tread surface and side walls that cooperate to define a cavity into which the lower step platform fits when the stepping platform is in the stored position. The lower step platform also includes a tread surface and side walls. In one embodiment, a height of the lower step platform is about half of an overall height of the upper step platform. Further, both platforms may include tread surface areas sized to support both feet of a standing adult. | 10-13-2011 |