Patent application number | Description | Published |
20080198205 | Printhead Fabricated on Flexible Substrate - A printhead or other droplet emitter is manufactured integrally with a flexible circuit. Preferred methods of manufacturing a droplet emitter comprise the steps of: creating metal traces, preferably deposited using a metal oxide precursor; patterning a sacrificial photoresist to create ink channels and nozzle chambers; depositing piezoelectrically active material over the metal traces and sacrificial photoresist; patterning vias through the piezo-electrically active material to act as nozzles and openings to ink reservoirs; and flushing out the photoresist. The piezo-electrically active material is preferably a mixture of PZT and PVDF. | 08-21-2008 |
20110057996 | Printer Cartridge Having A Parasitic Power Circuit - Non-OEM printer cartridges for printers expecting an OEM cartridge are presented. A non-OEM printer cartridge includes a medium delivery system other than a medium delivery system ordinarily used or expected by a printer. A circuit within the non-OEM cartridge parasitically draws power from signal lines activated by the printer and powers the non-OEM cartridge's medium delivery system. Additionally, the circuit maintains a power draw and impedance within the printer's tolerance so that the printer accommodates the non-OEM cartridge. | 03-10-2011 |
20110304505 | Electronic Tracking System - An ordnance usable against a living body, the ordnance having a tracking module with a transmitter that can use at least a portion of the body as an antenna. In preferred embodiments, the tracking module is releasably coupled to a carrier, and a pointed tip is disposed on at least one of the tracking module and the carrier. The module preferably includes a circuit that provides location information to the transmitter, and optionally provides additional information, including at least one of motion, compass, pressure, oxygen, and heart beat information. Transmission can occur at any suitable interval, including for example, at least three times during a ten minute period. The transmitter can optionally transmit a no heart beat signal, failure signal, and/or low battery signal. Preferred systems include a receiver that can send an interrogation signal, and the ordnance can include an interrogation receiving circuit for receiving interrogation signals. | 12-15-2011 |
Patent application number | Description | Published |
20090082293 | TECHNIQUES AND COMPOSITIONS FOR TREATING CARDIOVASCULAR DISEASE BY IN VIVO GENE DELIVERY - Methods are provided for treating patients with cardiovascular disease, including heart disease and peripheral vascular disease. The preferred methods of the present invention involve in vivo delivery of genes, encoding angiogenic proteins or peptides, to the myocardium or to peripheral ischemic tissue, by introduction of a vector containing the gene into a blood vessel supplying the heart or into a peripheral ischemic tissue. | 03-26-2009 |
20150118287 | SYSTEMIC DELIVERY AND REGULATED EXPRESSION OF PARACRINE GENES FOR CARDIOVASCULAR DISEASES AND OTHER CONDITIONS - In alternative embodiments, the invention provides methods for treating, ameliorating or protecting (preventing) an individual or a patient against a disease, an infection or a condition responsive to an increased paracrine polypeptide level in vivo comprising: providing a paracrine polypeptide-encoding nucleic acid or gene operatively linked to a transcriptional regulatory sequence; or an expression vehicle, a vector, a recombinant virus, or equivalent, having contained therein a paracrine-encoding nucleic acid or gene, and the expression vehicle, vector, recombinant virus, or equivalent can express the paracrine-encoding nucleic acid or gene in a cell or in vivo; and administering or delivering the paracrine polypeptide-encoding nucleic acid or gene operatively linked to a transcriptional regulatory sequence, or the expression vehicle, vector, recombinant virus, or equivalent, to an individual or a patient in need thereof, thereby treating, ameliorating or protecting (preventing) the individual or patient against the disease, infection or condition responsive to an increased paracrine polypeptide level. | 04-30-2015 |
20160101164 | CYCLE ADENOSINE MONOPHOSPHATE-INCOMPETENT ADENYLYL CYCLASE AND COMPOSITIONS AND METHODS FOR TREATING HEART FAILURE AND INCREASING CARDIAC FUNCTION - The invention provides methods for treating, ameliorating or protecting (preventing) an individual or a patient having or at risk of having heart disease or heart failure, or decreased cardiac function, comprising: providing a cyclic adenosine monophosphate-incompetent (cAMP-incompetent) adenylyl cyclase type 6 (AC6) protein or polypeptide (also called “an AC6mut”), or an AC6mut-encoding nucleic acid or a gene operatively linked to a transcriptional regulatory sequence. | 04-14-2016 |
Patent application number | Description | Published |
20110087606 | SYSTEMS AND METHODS FOR PROCESSING MERCHANDISE RETURNS - Systems and method for processing merchandise returns are described. In some embodiments, a sales receipt can be received in connection with a requested merchandise return. A receipt identifier can be used to locate sales data associated with the original purchase of the merchandise being returned, and a customer identifier (e.g., a customer loyalty number or a hashed credit card number) can be extracted from the sales data. Customer information, such as prior merchandise return data or prior purchase data, can be retrieved using the extracted customer identifier. The customer information can be used to assess the risk associated with the requested merchandise return for making a determination of whether to accept or deny the return request. Determinations can also be made for whether to provide the customer with a warning or with a coupon in connection with the merchandise return. In some embodiments, multiple customer identifiers can be extracted from a transaction within the sales data and an association can be stored between the multiple extracted customer identifiers. The association can indicate that both customer identifiers relate to a single customer. Then, if a request is later made for customer data associated with a first customer identifier, a response an include customer data for the first customer identifier as well as customer data for other customer identifiers associated with the first customer identifier. | 04-14-2011 |
20140304044 | RETURN COUPON HOLDER - A return coupon holder is described for holding a return coupon issued in a store in conjunction with a customer's merchandise return transaction. The return coupon holder is preferably sized large enough to discourage the customer from stowing the coupon away, such as in a handbag. Additionally, holders may be of different types that visually or electronically convey information about a category associated with the customer's return transaction. Thus, salespersons may accordingly provide appropriate customer service to the customer. The holder categories may indicate an approximate dollar value of the return transaction, a type of merchandise returned, a return payment method, an assessment of the profitability of the customer, an assessment of the risk of fraud associated with the return transaction, and the like. A computer decision system may select holder type. Some embodiments of the coupon holder are fitted with a device that allow tracing of the customer's movements while still in the store. | 10-09-2014 |
Patent application number | Description | Published |
20090076870 | SYSTEMS AND METHODS FOR DATA COLLECTION AT A POINT OF RETURN - Systems and methods are described for collecting data at a merchant's point of return for use in processing a merchandise return transaction that is being requested by a customer. In various embodiments, the data may be collected using a wide variety of data collection technologies and may be used in conjunction with stored data, including data collected from other merchants, by a return authorization system to make a determination whether to accept or deny the requested merchandise return. The data may additionally or alternatively be used to determine whether to issue a warning to the customer about limitations on future return transactions presented by the customer. Examples of data categories that may be collected include, but are not limited to, information about: the merchant, the customer, the requested transaction, the merchandise being returned, one or more receipts, a clerk processing the transaction, and other general applicable information. | 03-19-2009 |
20120166296 | SYSTEMS AND METHODS FOR DATA COLLECTION AT A POINT OF RETURN - Systems and methods are described for collecting data at a merchant's point of return for use in processing a merchandise return transaction that is being requested by a customer. In various embodiments, the data may be collected using a wide variety of data collection technologies and may be used in conjunction with stored data, including data collected from other merchants, by a return authorization system to make a determination whether to accept or deny the requested merchandise return. The data may additionally or alternatively be used to determine whether to issue a warning to the customer about limitations on future return transactions presented by the customer. Examples of data categories that may be collected include, but are not limited to, information about: the merchant, the customer, the requested transaction, the merchandise being returned, one or more receipts, a clerk processing the transaction, and other general applicable information. | 06-28-2012 |
20130073408 | SYSTEMS AND METHODS FOR DATA COLLECTION AND PROVIDING COUPONS AT A POINT OF RETURN - Systems and methods are described for collecting data at a merchant's point of return for use in processing a merchandise return transaction that is being requested by a customer. In various embodiments, the data may be collected using a wide variety of data collection technologies and may be used in conjunction with stored data, including data collected from other merchants, by a return authorization system to make a determination whether to accept or deny the requested merchandise return. The data may additionally or alternatively be used to determine whether to issue a warning to the customer about limitations on future return transactions presented by the customer. Examples of data categories that may be collected include, but are not limited to, information about: the merchant, the customer, the requested transaction, the merchandise being returned, one or more receipts, a clerk processing the transaction, and other general applicable information. | 03-21-2013 |
20130124296 | SYSTEMS AND METHODS FOR DETERMINING WHETHER TO OFFER A REWARD AT A POINT OF RETURN - Computerized decision-making systems and methods are described for determining whether to provide one or more rewards, such as a coupon or instant discount, to a customer requesting to make a merchandise return at a store, and, if so, to determine the terms of the reward, such as value, expiration date/time and other terms that may be associated with a coupon. The reward determinations may be implemented in conjunction with a system for authorizing the requested merchandise return transaction. Information about the requested return may be used together with data about the customer's past purchase, return transactions, and other customer-related data. In some embodiments, the determinations are based, at least in part, on store-related information and policies. The reward may be printed with a receipt issued to the customer at the point of return and/or may be provided to the customer using a wide variety of other communications technologies. | 05-16-2013 |
20140046750 | SYSTEMS AND METHODS FOR DATA COLLECTION AND PROVIDING COUPONS AT A POINT OF RETURN - Systems and methods are described for collecting data at a merchant's point of return for use in processing a merchandise return transaction that is being requested by a customer. In various embodiments, the data may be collected using a wide variety of data collection technologies and may be used in conjunction with stored data, including data collected from other merchants, by a return authorization system to make a determination whether to accept or deny the requested merchandise return and whether to provide a coupon to the customer. The data may additionally or alternatively be used to determine whether to issue a warning to the customer about limitations on future return transactions presented by the customer. Examples of data categories that may be collected include, but are not limited to, information about: the merchant, the customer, the requested transaction, the merchandise being returned, one or more receipts, a clerk processing the transaction, and other general applicable information. | 02-13-2014 |
20140067504 | SYSTEMS AND METHODS FOR DETERMINING WHETHER TO OFFER A REWARD AT A POINT OF RETURN - Computerized decision-making systems and methods are described for determining whether to provide one or more rewards, such as a coupon or instant discount, to a customer requesting to make a merchandise return at a store, and, if so, to determine the terms of the reward, such as value, expiration date/time and other terms that may be associated with a coupon. The reward determinations may be implemented in conjunction with a system for authorizing the requested merchandise return transaction. Information about the requested return may be used together with data about the customer's past purchase, return transactions, and other customer-related data. In some embodiments, the determinations are based, at least in part, on store-related information and policies. The reward may be printed with a receipt issued to the customer at the point of return and/or may be provided to the customer using a wide variety of other communications technologies. | 03-06-2014 |
20140236702 | SYSTEMS AND METHODS FOR DATA COLLECTION AND PROVIDING COUPONS AT A POINT OF RETURN - Systems and methods are described for collecting data at a merchant's point of return for use in processing a merchandise return transaction that is being requested by a customer. In various embodiments, the data may be collected using a wide variety of data collection technologies and may be used in conjunction with stored data, including data collected from other merchants, by a return authorization system to make a determination whether to accept or deny the requested merchandise return and whether to provide a coupon to the customer. The data may additionally or alternatively be used to determine whether to issue a warning to the customer about limitations on future return transactions presented by the customer. Examples of data categories that may be collected include, but are not limited to, information about: the merchant, the customer, the requested transaction, the merchandise being returned, one or more receipts, a clerk processing the transaction, and other general applicable information. | 08-21-2014 |
20160055524 | SYSTEMS AND METHODS FOR DATA COLLECTION AND PROVIDING COUPONS AT A POINT OF RETURN - Systems and methods are described for collecting data at a merchant's point of return for use in processing a merchandise return transaction that is being requested by a customer. In various embodiments, the data may be collected using a wide variety of data collection technologies and may be used in conjunction with stored data, including data collected from other merchants, by a return authorization system to make a determination whether to accept or deny the requested merchandise return and whether to provide a coupon to the customer. The data may additionally or alternatively be used to determine whether to issue a warning to the customer about limitations on future return transactions presented by the customer. Examples of data categories that may be collected include, but are not limited to, information about: the merchant, the customer, the requested transaction, the merchandise being returned, one or more receipts, a clerk processing the transaction, and other general applicable information. | 02-25-2016 |
Patent application number | Description | Published |
20140266510 | MICROWAVE ACOUSTIC WAVE FILTERS - An acoustic microwave filter comprises an input and an output, and a plurality of acoustic resonators coupled between the input and the output. The difference between the lowest resonant frequency and the highest resonant frequency of a plurality of resonators in the filter is at least 1.25 times the frequency separation of the resonator with the highest resonant frequency in the plurality of resonators. Another acoustic microwave filter comprises an input and an output, and a plurality of acoustic resonators coupled between the input and the output to form a passband. The frequency difference between a local minimum or a local maximum of a return loss magnitude of the acoustic microwave filter and the edge of the passband is at least once the frequency separation of the resonator with the highest resonant frequency. | 09-18-2014 |
20140266511 | NETWORK SYNTHESIS DESIGN OF MICROWAVE ACOUSTIC WAVE FILTERS - Methods for the design of microwave filters comprises comprising preferably the steps of inputting a first set of filter requirements, inputting a selection of circuit element types, inputting a selection of lossless circuit response variables, calculating normalized circuit element values based on the input parameters, and generate a first circuit, insert parasitic effects to the normalized circuit element values of the first circuit, and output at least the first circuit including the post-parasitic effect circuit values. Additional optional steps include: requirements to a normalized design space, performing an equivalent circuit transformation, unmapping the circuit to a real design space, performing a survey, and element removal optimization. Computer implement software, systems, and microwave filters designed in accordance with the method are included. | 09-18-2014 |
20140282311 | NETWORK SYNTHESIS DESIGN OF MICROWAVE ACOUSTIC WAVE FILTERS - A method of designing an acoustic microwave filter in accordance with frequency response requirements. The method comprises selecting an initial filter circuit structure including a plurality of circuit elements comprising at least one resonant element and at least one other reactive circuit element, selecting lossless circuit response variables based on the frequency response requirements, selecting a value for each of the circuit elements based on the selected circuit response variables to create an initial filter circuit design, transforming the resonant element(s) and the other reactive circuit element(s) of the initial filter circuit design into at least one acoustic resonator model to create an acoustic filter circuit design, adding parasitic effects to the acoustic filter circuit design to create a pre-optimized filter circuit design, optimizing the pre-optimized filter circuit design to create a final filter circuit design, and constructing the acoustic microwave filter based on the final filter circuit design. | 09-18-2014 |
20140320236 | MICROWAVE ACOUSTIC WAVE FILTERS - An acoustic microwave filter comprises an input and an output, and a plurality of acoustic resonators coupled between the input and the output. The difference between the lowest resonant frequency and the highest resonant frequency of a plurality of resonators in the filter is at least 1.25 times the frequency separation of the resonator with the highest resonant frequency in the plurality of resonators. | 10-30-2014 |
20150106072 | NETWORK SYNTHESIS DESIGN OF MICROWAVE ACOUSTIC WAVE FILTERS - Methods for the design of microwave filters comprises comprising preferably the steps of inputting a first set of filter requirements, inputting a selection of circuit element types, inputting a selection of lossless circuit response variables, calculating normalized circuit element values based on the input parameters, and generate a first circuit, insert parasitic effects to the normalized circuit element values of the first circuit, and output at least the first circuit including the post-parasitic effect circuit values. Additional optional steps include: requirements to a normalized design space, performing an equivalent circuit transformation, unmapping the circuit to a real design space, performing a survey, and element removal optimization. Computer implement software, systems, and microwave filters designed in accordance with the method are included. | 04-16-2015 |
20150220665 | NETWORK SYNTHESIS DESIGN OF MICROWAVE ACOUSTIC WAVE FILTERS - A method of designing an acoustic microwave filter in accordance with frequency response requirements. The method comprises selecting an initial filter circuit structure including a plurality of circuit elements comprising at least one resonant element and at least one other reactive circuit element, selecting circuit response variables based on the frequency response requirements, selecting a value for each of the circuit elements based on the selected circuit response variables to create an initial filter circuit design, transforming the resonant element(s) and the other reactive circuit element(s) of the initial filter circuit design into at least one acoustic resonator model to create an acoustic filter circuit design, adding parasitic effects to the acoustic filter circuit design to create a pre-optimized filter circuit design, optimizing the pre-optimized filter circuit design to create a final filter circuit design, and constructing the acoustic microwave filter based on the final filter circuit design. | 08-06-2015 |
20160070827 | NETWORK SYNTHESIS DESIGN OF MICROWAVE ACOUSTIC WAVE FILTERS - A method of designing an acoustic microwave filter in accordance with frequency response requirements. The method comprises selecting an initial filter circuit structure including a plurality of circuit elements comprising at least one resonant element and at least one other reactive circuit element, selecting circuit response variables based on the frequency response requirements, selecting a value for each of the circuit elements based on the selected circuit response variables to create an initial filter circuit design, transforming the resonant element(s) and the other reactive circuit element(s) of the initial filter circuit design into at least one acoustic resonator model to create an acoustic filter circuit design, adding parasitic effects to the acoustic filter circuit design to create a pre-optimized filter circuit design, optimizing the pre-optimized filter circuit design to create a final filter circuit design, and constructing the acoustic microwave filter based on the final filter circuit design. | 03-10-2016 |