Vallery
Christina Vallery, Austin, TX US
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20140046794 | SHOPPING ASSISTANT - Systems and methods of assisting in an electronic shopping experience are disclosed. A request may be received to add a first item to a virtual shopping cart from a user. The first item in the virtual shopping cart may be caused to be displayed to the user. A request to remove the first item from the virtual shopping cart may be received from the user. The user may be prompted to indicate a reason for the request to remove the first item from the virtual shopping cart. An indication of the reason for the request to remove the first item from the virtual shopping cart may be received from the user. A replacement item for the first item may be determined based on the indication of the reason for the request to remove the first item. The replacement item may be caused to be displayed to the user. | 02-13-2014 |
Christina Marie Vallery, Austin, TX US
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20120173324 | Dynamic Product/Service Recommendations - Systems and methods according to one or more embodiments facilitate electronic commerce over a network. In an embodiment, a method comprises creating a user profile comprising information including data entered by a primary user related to a product or service on a user device as well as data from other users that are related to or have common interests with the primary user, wherein the user profile dynamically changes based on, at least in part, new actions by the primary user as well as new actions by the other users. The method also comprises weighing the information in the user profile to determine targeted recommendations for the primary user. And the method further comprises providing the targeted recommendations to the primary user based on the user profile. | 07-05-2012 |
David Vallery, Amherst, NH US
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20140242274 | SYSTEMS AND METHODS FOR MAKING FIBER WEBS - Systems and methods for forming fiber webs, including those suitable for use as filter media and battery separators, are provided. In some embodiments, the systems and methods involve a first system for forming a fiber web (e.g., a wet laid system or non-wet laid system) and additionally one or more coating units. The first system for forming a fiber web may be used to form one or more fibrous layers of the fiber web, and the coating unit may be used to form an additional fibrous layer of the fiber web. In some embodiments, the systems and methods can be used to form fiber webs having a gradient in a property across a portion of, or the entire, thickness of the fiber web. | 08-28-2014 |
David Vallery, Exeter, NH US
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20120312487 | SYSTEMS AND METHODS FOR MAKING FIBER WEBS - Systems and methods for forming fiber webs, including those suitable for use as filter media and battery separators, are provided. In some embodiments, the systems and methods may involve the use of one or more fiber mixtures to form a fiber web. The fiber mixtures may flow in different portions of a system for forming a fiber web that may be separated by a lamella, and may join at a fiber web forming zone to produce a fiber web having multiple layers. The amount of mixing of the fiber mixtures at or near the fiber web forming zone may be controlled to produce fiber webs having different structural and/or performance characteristics. In some embodiments, the systems and methods described herein can be used to form fiber webs having a gradient in a property across a portion of, or the entire, thickness of the fiber web. | 12-13-2012 |
20130009335 | SYSTEMS AND METHODS FOR MAKING FIBER WEBS - Systems and methods for forming fiber webs, including those suitable for use as filter media and battery separators, are provided. In some embodiments, the systems and methods may involve the use of one or more fiber mixtures to form a fiber web. The fiber mixtures may flow in different portions of a system for forming a fiber web that may be separated by a lamella, and may join at a fiber web forming zone to produce a fiber web having multiple layers. The amount of mixing of the fiber mixtures at or near the fiber web forming zone may be controlled to produce fiber webs having different structural and/or performance characteristics. In some embodiments, the systems and methods described herein can be used to form fiber webs having a gradient in a property across a portion of, or the entire, thickness of the fiber web. | 01-10-2013 |
David Vallery, Mason, NH US
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20130025806 | SYSTEMS AND METHODS FOR MAKING FIBER WEBS - Systems and methods for forming fiber webs, including those suitable for use as filter media and battery separators, are provided. In some embodiments, the systems and methods involve a first system for forming a fiber web (e.g., a wet laid system or non-wet laid system) and additionally one or more coating units. The first system for forming a fiber web may be used to form one or more fibrous layers of the fiber web, and the coating unit may be used to form an additional fibrous layer of the fiber web. In some embodiments, the systems and methods can be used to form fiber webs having a gradient in a property across a portion of, or the entire, thickness of the fiber web. | 01-31-2013 |
20150157969 | FINE GLASS FILTER MEDIA - Filter media suitable for various applications and related components, systems, and methods associated therewith are described. The filter media may include a composite filter media structure having a substrate and at least one fine fiber layer. The fine fiber layer may include a plurality of glass fibers having an average fiber diameter of less than 2 microns; or, at least 70% by weight of the glass fibers within the fine fiber layer has a fiber diameter of less than 2 microns. The fine fiber layer may further include a fluorochemical composition, an organosilicon composition and may optionally include a binder composition that comprises less than 2% by weight of the fine fiber layer. The filter media may exhibit both a relatively high gamma and favorable mechanical properties. The filter media may be produced by forming a substrate on the surface of a wire in a wet laid process, and forming a fine fiber layer on the substrate while the substrate is on the wire. | 06-11-2015 |
Heike Vallery, Dorsten DE
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20150320632 | APPARATUS FOR UNLOADING A USER'S BODY WEIGHT DURING A PHYSICAL ACTIVITY OF SAID USER, PARTICULARLY FOR GAIT TRAINING OF SAID USER - The invention relates to an apparatus ( | 11-12-2015 |
Heike Vallery, Abu Dhabi AE
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20140260714 | GYROSCOPIC-ASSISTED DEVICE TO CONTROL BALANCE - The embodiment herein generally relates to a system to apply moments to a user, particularly during gait. The system is a portable gyroscopic-assisted system, mounted on a user's body, particularly the upper body, particularly to influence orientation of users having difficulty with balancing during gait. The system comprises a plurality of variable-speed control moment gyroscopes (VSCMGs). The VSCMGs generate moments, particularly to counteract a fall to any direction. The VSCMGs are placed close to the center of mass of the user. The couple moments of the VSCMGs are transmitted to the user through a support structure that is tightly attached to the user. Particularly, the system controls moments based on detecting pre-fall conditions. | 09-18-2014 |
Heike Vallery, Zurich CH
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20120130538 | Method to Control a Robot Device and Robot Device - A method to control a robot device that includes at least one manipulator which is moveable in an operating space, at least one actuator which actuates the manipulator, a sensor arrangement having at least one position sensor to determine the actual position of the manipulator and a controller which controls the actuator. The manipulator moves along an actual trajectory by means of an external force provided by an operator. The actuator provides compensation forces onto the manipulator influencing the torques or forces exchanged between operator and manipulator. The controller includes a conservative force field module having a conservative force field. The controller provides control signals for the actuator which provides the compensation force based on the control signals. The control signals are based on the conservative force field and on the actual position of the manipulator. | 05-24-2012 |