Inventors list

Assignees list

Classification tree browser

Top 100 Inventors

Top 100 Assignees

Anthony K.

Anthony K. Amert, Rapid City, SD US

Patent application number	Description	Published
20100139087	Microwave Device for Rapid Prototyping - A system of rapid prototyping, having: a plurality of thin sheets of low loss dielectric film, each sheet having a different metallization pattern formed thereon; and a base onto which each of the plurality of thin sheets of low loss dielectric film can be received, wherein the base comprises a metallization pattern formed thereon, and wherein placement of each of the plurality of thin sheets of low loss dielectric film onto the base results in a different circuit being formed across the thin sheet and the base.	06-10-2010

Anthony K. Bruster, Texarkana, TX US

Patent application number	Description	Published
20100036934	Network Based Community and Contest System and Method for Same - A computer network such as the World Wide Web, private intranet, or the like provides for creating a community of users. Periodically one or more topics are presented on a network site. Users can upload content, such as video files, audio files, pictures, text files, and the like relating to a topic to share with other users. User can also indicate whether they have personally experienced a particular topic and/or whether they desire to experience a particular topic. In some embodiments, a companion program, such as a television show, radio show, podcast, or the like also provides users the ability to review content posted by other users.	02-11-2010

Anthony K. Jakubczak, Angola, NY US

Patent application number	Description	Published
20120073877	HARDPAN AUGER - Taught is an auger having a working head (	03-29-2012

Anthony K. Misener, Bountiful, UT US

Patent application number	Description	Published
20090156926	Integrated System for Intravascular Placement of a Catheter - An integrated catheter placement system for accurately placing a catheter within a patient'vasculature is disclosed. In one embodiment, the integrated system comprises a system console, a tip location sensor for temporary placement on the patient's chest, and an ultrasound probe. The tip location sensor senses a magnetic field of a stylet disposed in a lumen of the catheter when the catheter is disposed in the vasculature. The ultrasound probe ultrasonically images a portion of the vasculature prior to intravascular introduction of the catheter. The ultrasound probe includes user input controls for controlling use of the ultrasound probe in an ultrasound mode and use of the tip location sensor in a tip location mode. In another embodiment, ECG signal-based catheter tip guidance is included in the integrated system to enable guidance of the catheter tip to a desired position with respect to a node of the patient's heart.	06-18-2009
20090234328	SYSTEMS AND METHODS FOR BREACHING A STERILE FIELD FOR INTRAVASCULAR PLACEMENT OF A CATHETER - An integrated catheter placement system for accurately placing a catheter within a patient's vasculature is disclosed. In one embodiment, the integrated system comprises a system console, a tip location sensor for temporary placement on the patient's chest, and an ultrasound probe. The tip location sensor senses a magnetic field of a stylet disposed in a lumen of the catheter when the catheter is disposed in the vasculature. The ultrasound probe ultrasonically images a portion of the vasculature prior to introduction of the catheter. ECG signal-based catheter tip guidance is included in the integrated system to enable guidance of the catheter tip to a desired position with respect to a node of the patient's heart. Various means for establishing a conductive pathway between a sterile field of the patient and a non-sterile field to enable passage of ECG signals from the catheter to the tip location sensor are also disclosed.	09-17-2009
20100036227	APPARATUS AND DISPLAY METHODS RELATING TO INTRAVASCULAR PLACEMENT OF A CATHETER - An integrated catheter placement system for accurately placing a catheter within a patient's vasculature is disclosed. In one embodiment, the integrated system comprises a system console, a tip location sensor for temporary placement on the patient's chest, and an ultrasound probe. The tip location sensor senses a magnetic field of a stylet disposed in a lumen of the catheter when the catheter is disposed in the vasculature. The ultrasound probe ultrasonically images a portion of the vasculature prior to introduction of the catheter. ECG signal-based catheter tip guidance is included in the integrated system to enable guidance of the catheter tip to a desired position with respect to a node of the patient's heart. Various aspects for visualizing and manipulating display of the ECG signal data acquired via the present system, together with aspects of various ECG sensor configurations, are also disclosed.	02-11-2010
20110015533	STYLETS FOR USE WITH APPARATUS FOR INTRAVASCULAR PLACEMENT OF A CATHETER - An integrated catheter placement system for accurately placing a catheter within a patient's vasculature is disclosed. In one embodiment, the integrated system comprises a system console, a tip location sensor for temporary placement on the patient's chest, and an ultrasound probe. The tip location sensor senses a magnetic field of a stylet disposed in a lumen of the catheter when the catheter is disposed in the vasculature. The ultrasound probe ultrasonically images a portion of the vasculature prior to introduction of the catheter. ECG signal-based catheter tip guidance is included in the integrated system to enable guidance of the catheter tip to a desired position with respect to a node of the patient's heart. Stylets and catheters including various multiple bipolar and monopolar electrode configurations are also disclosed.	01-20-2011

Anthony K. Scragg, Jr., Coconut Creek, FL US

Patent application number	Description	Published
20100327059	Method and system for smart card virtualization - Methods and systems are provided to allow personal computer users to virtualize a local smart card so that they can remotely connect to a server and interact with the server as if the local smart card was physically connected to the server. They connect a remote smart card target hardware device to the target system through a physical connection, such as a USB connection, and the device interacts with the local user's computer and smart card reader over a network. The target system is unaware that the smart card reader is not connected directly to the system through a physical connection, and the target system does not need special software to implement the remote smart card reader. The smart card target device connected to the target computer may be physically connected and disconnected.	12-30-2010