Abstract: A parabolic cylindrical reflector antenna that comprises two or more antenna feeds each directed towards a parabolic cylindrical reflector, wherein the antenna feeds are positioned in one or more line-arrays parallel to a focal line of the parabolic cylindrical reflector, and the line-array is substantially centered opposing the reflector. The antenna comprises a controller configured to scan along a straight edge of the reflector by electronically adjusting a phase of each of the antenna feeds, thereby changing the incident angle of an energy beam relative to the reflector. The controller is configured to scan along a curved edge of the reflector by moving, using a mechanical positioning mechanism, the antenna feeds in a direction parallel to a directrix of the reflector while maintaining the positioning or by electronically selecting one of two or more parallel line-arrays.

Abstract: Aspects of the present disclosure describe systems, methods, and structures for pulmonary vein isolation lesion evaluation that advantageously determine lesion durability.

Abstract: A parabolic cylindrical reflector antenna that comprises two or more antenna feeds each directed towards a parabolic cylindrical reflector, wherein the antenna feeds are positioned in one or more line-arrays parallel to a focal line of the parabolic cylindrical reflector, and the line-array is substantially centered opposing the reflector. The antenna comprises a controller configured to scan along a straight edge of the reflector by electronically adjusting a phase of each of the antenna feeds, thereby changing the incident angle of an energy beam relative to the reflector. The controller is configured to scan along a curved edge of the reflector by moving, using a mechanical positioning mechanism, the antenna feeds in a direction parallel to a directrix of the reflector while maintaining the positioning or by electronically selecting one of two or more parallel line-arrays.

Abstract: Provided is a method for predicting an individual to be at risk of developing sudden unexpected death in epilepsy (SUDEP) comprising determining the presence or absence of mutations in the genes ITPR1, GABRR2, JUP, SSTR5, F2, KCNMB1, CNTNAP2, GRM8, GNAI2, TUBA3D, GRIK1, GRIK5 and DPP6, or determining if the expression of certain cardiac arrhythmia genes or gamma-aminobutyric acid/glutamate metabolism genes are increased or decreased.

Abstract: Some embodiments provide a method of providing information to a third-party service. From the third-party service, the method receives a request for information regarding a particular device that is transacting with the third-party service. The request includes data encrypted by the particular device that is inaccessible to the third-party service. The method accesses the encrypted data to determine a unique identifier of the particular device. The method uses the unique identifier to determine the requested information. The method provides the requested information to the third-party service without providing an identity of the device to the third-party service.

Abstract: Some embodiments provide an account-access recovery method that receives a request to recover access to an account. The method also assesses recent usage of a device that is associated with the account. The method also, based on the assessment, selects a recovery process from a group of different recovery processes for regaining access to the account. The method also provides the selected recovery process to a party that is requesting the access recovery.

Abstract: A computer implemented method for processing a financial transaction includes the steps of transmitting one or more documents pertaining to the financial transaction, from a first intermediary server to a first document store, generating an enriched data record from the one or more documents, at the first intermediary server, and adding the enriched data record into a blockchain, from the first intermediary sever, requesting generation of a token corresponding to the financial transaction, to a token server, from the first intermediary server, via a messaging bus, generating the token at the token server and adding the token into the blockchain from the token server, transmitting the token to the first intermediary server from the token server, via the messaging bus, and transmitting the token from the first intermediary server to the first document store.

Abstract: Some embodiments of the invention provide a program for recovering access to an account. The program receives an access recovery parameter (ARP) after providing a first credential to log into an account and providing a notification of a second credential necessary for accessing another resource. The program then receives a request to modify the first credential and receives the second credential. Next, after authenticating the second credential, the program uses the ARP to modify the first credential without providing the first credential.

Abstract: A system includes an implantable body configured for implantation in a subgaleal extracranial position, the implantable body including a first electrode array including a first elongated body comprising first and second electrode contacts separated from one another by a distance selected to facilitate the detection of brain electrical activity and a unit coupled to the first electrode array. The unit includes a processor analyzing the detected brain electrical activity to determine whether an epileptic event has occurred and generating epileptic event data based on this determination and a transceiver controlled by the processor to wirelessly transmit epileptic event data to and from a remote computing device.

Abstract: A parabolic cylindrical reflector antenna that comprises two or more antenna feeds each directed towards a parabolic cylindrical reflector, wherein the antenna feeds are positioned in one or more line-arrays parallel to a focal line of the parabolic cylindrical reflector, and the line-array is substantially centered opposing the reflector. The antenna comprises a controller configured to scan along a straight edge of the reflector by electronically adjusting a phase of each of the antenna feeds, thereby changing the incident angle of an energy beam relative to the reflector. The controller is configured to scan along a curved edge of the reflector by moving, using a mechanical positioning mechanism, the antenna feeds in a direction parallel to a directrix of the reflector while maintaining the positioning or by electronically selecting one of two or more parallel line-arrays.

Abstract: A system includes an implantable body configured for implantation in a subgaleal extracranial position, the implantable body including a first electrode array including a first elongated body comprising first and second electrode contacts separated from one another by a distance selected to facilitate the detection of brain electrical activity and a unit coupled to the first electrode array. The unit includes a processor analyzing the detected brain electrical activity to determine whether an epileptic event has occurred and generating epileptic event data based on this determination and a transceiver controlled by the processor to wirelessly transmit epileptic event data to and from a remote computing device.

Abstract: Some embodiments of the invention provide a program for recovering access to a service associated with an account. The program provides a login credential to log into the account to receive the associated service. Next, the program receives an access continuation parameter (ACP) after logging into the account. The program then accesses the service and receives a rejection of a subsequent access to the service. The program then provides the ACP in lieu of the login credential to continue to receive the service.

Abstract: Some embodiments of the invention provide a program for recovering access to an account. The program receives an access recovery parameter (ARP) after providing a first credential to log into an account and providing a notification of a second credential necessary for accessing another resource. The program then receives a request to modify the first credential and receives the second credential. Next, after authenticating the second credential, the program uses the ARP to modify the first credential without providing the first credential.

Abstract: A method and system are disclosed for calibrating a mid-voltage node in an integrated circuit including an input-output circuit having charge-recycling stacked voltage domains including at least first and second voltage domains. In one embodiment, the method comprises transmitting data through the input-output circuit, including transmitting a first portion of the data across the first voltage domain, and transmitting a second portion of the data across the second voltage domain. The method further comprises measuring a specified characteristic of the data transmitted through the input-output circuit; and based on the measured specified characteristic, adjusting a voltage of said mid-voltage node to a defined value. The voltage of the mid-voltage node may be adjusted to accomplish a number of objectives, for example, to achieve a desired trade-off between power and performance, or so that the two voltage domains have the same performance.

Abstract: A method and system are disclosed for calibrating a mid-voltage node in an integrated circuit including an input-output circuit having charge-recycling stacked voltage domains including at least first and second voltage domains. In one embodiment, the method comprises transmitting data through the input-output circuit, including transmitting a first portion of the data across the first voltage domain, and transmitting a second portion of the data across the second voltage domain. The method further comprises measuring a specified characteristic of the data transmitted through the input-output circuit; and based on the measured specified characteristic, adjusting a voltage of said mid-voltage node to a defined value. The voltage of the mid-voltage node may be adjusted to accomplish a number of objectives, for example, to achieve a desired trade-off between power and performance, or so that the two voltage domains have the same performance.

Abstract: A plug-and-play addition to a traditional electrical outlet that upgrades it to a universally compatible charging station. The unit can be plugged directly into an ordinary electrical outlet or can be secured to the wall with a screw. A removable pod module couples to a docking module plugged into the wall. A positive interface between the two modules holds them together, and an internal battery in the pod module is automatically charged. The interface may be frictionally enhanced with rubberized contact surfaces and magnetic latches. Both modules include integrated flexible charging cables with a variety of connectors for external devices.

Abstract: A plug-and-play addition to a traditional electrical outlet that upgrades it to a universally compatible charging station. The unit can be plugged directly into an ordinary electrical outlet or can be secured to the wall with a screw. A removable pod module couples to a docking module plugged into the wall. A positive interface between the two modules holds them together, and an internal battery in the pod module is automatically charged. The interface may be frictionally enhanced with rubberized contact surfaces and magnetic latches. Both modules include integrated flexible charging cables with a variety of connectors for external devices.

Abstract: A method and system are disclosed for calibrating a mid-voltage node in an integrated circuit including an input-output circuit having charge-recycling stacked voltage domains including at least first and second voltage domains. In one embodiment, the method comprises transmitting data through the input-output circuit, including transmitting a first portion of the data across the first voltage domain, and transmitting a second portion of the data across the second voltage domain. The method further comprises measuring a specified characteristic of the data transmitted through the input-output circuit; and based on the measured specified characteristic, adjusting a voltage of said mid-voltage node to a defined value. The voltage of the mid-voltage node may be adjusted to accomplish a number of objectives, for example, to achieve a desired trade-off between power and performance, or so that the two voltage domains have the same performance.