Peter L Renzi

US Patent:

20040057697, Mar 25, 2004

Filed:

Sep 19, 2003

Appl. No.:

10/665277

Inventors:

Peter Renzi - Acton MA, US
Eddie Mitchell - Harvard MA, US

International Classification:

H04N005/91

US Classification:

386/083000

Abstract:

A streaming digital recording system and method uses a video recorder object and first memory in combination with a streaming object to stream video data to a digital storage device from the first memory. Computer readable instructions of the streaming object are operative with the first memory to monitor the first memory for intermediate storage of image data recorded by a video recorder or other data recording device, and to stream the image data from the first memory to a digital or optical storage device. The streaming of video data to a digital storage device can be performed while the first memory continues to receive additional image data, resulting in rapid creation of digital image and video files. The system is also described for use in creating high resolution digital video records of medical and surgical procedures.

US Patent:

20070050828, Mar 1, 2007

Filed:

Aug 24, 2006

Appl. No.:

11/510337

Inventors:

Peter Renzi - Acton MA, US
Eddie Mitchell - Harvard MA, US

International Classification:

H04N 7/16
H04N 7/173

US Classification:

725093000, 725086000, 725087000, 725115000, 725145000

Abstract:

A distributed, digital, network-based, streaming video solution allows users to view live streaming digital video from multiple video sources in multiple operating rooms at any location connected to a network. One or more video sources in an operating room are connected to a streaming video encoder capable of converting the video to a network packet stream. Once the digital video stream is available on the network, it may be accessed and routed through the use of a streaming video control server. The streaming video control server is responsible for user authentication and authorization and web page access for remote viewing and video source selection by users. The control server also provides audit logging services, operating room selection and overall system resource allocation. The video control server also provides a network-based remote control interface, which enables other systems to communicate on the streaming video network, and allows for remote control of visualization from an integrated operating room control system, and provides the ability for one operating room to look into other operating rooms.

US Patent:

20210225506, Jul 22, 2021

Filed:

Mar 1, 2021

Appl. No.:

17/188651

Inventors:

- Southborough MA, US
Peter Renzi - Acton MA, US

International Classification:

G16H 40/67
H04N 7/18
G16H 80/00
H04N 7/14
H04N 7/15
A61B 34/20
A61B 34/00
A61B 90/20
A61B 90/00
A61B 1/00
A61B 1/313
A61B 5/00
A61B 6/00
A61B 8/00
H04L 29/06
H04N 5/222
H04N 5/232
H04N 7/01
H04N 9/79
G16H 40/63
G06F 3/0482
G06Q 10/10
G09B 23/28
H04L 29/08

Abstract:

A system and method for controlling and selecting sources in a room on a network. The system allows a remote viewer to create a virtual presence within the room by providing the available displays, corresponding to the sources, to the remote viewer. The system includes a standardizing technique for improving the communication and overall switching of data for streaming on a network. The system can include a recording server for performing dual recording of the video files in each of a local database and a remote database. A graphical user interface (GUI) display is provided to guide a local user through a medical procedure in the standardized system.

US Patent:

20200350063, Nov 5, 2020

Filed:

May 1, 2020

Appl. No.:

16/864720

Inventors:

- Littleton MA, US
Peter Renzi - Acton MA, US
Eddie E. Mitchell - Harvard MA, US

International Classification:

G16H 40/20
G16H 50/20
G16H 10/60
G06T 7/00
G06T 7/70

Abstract:

A system and method are provided for performing operations comprising: receiving one or more images from an image capture device of a medical treatment location; applying a trained machine learning model to the one or more images to detect presence of a patient in the medical treatment location, the trained machine learning model being trained to establish a relationship between one or more features of images of the medical treatment location and patient presence; generating context assessment for the medical treatment location based on the detected presence of the patient; and transmitting, over a network, the context assessment for presentation on a user interface of a client device.

US Patent:

20190112079, Apr 18, 2019

Filed:

Dec 11, 2018

Appl. No.:

16/216985

Inventors:

Peter Nicholas Renzi - E. Sandwich MA, US

Assignee:

RENZI FAMILY TRUST - E. Sandwich MA

International Classification:

B64G 5/00
C23C 30/00
B05D 7/14
B05D 3/02

Abstract:

Flame deflectors for rocket launchpads have historically been constructed on-site by spraying on a layer of refractory cement material, resulting in large monolithic structures which lack durability and are vulnerable to degradation by ambient weather. By assembling together a plurality of metal modules and refractory material modules, one obtains a flame deflector structure whose set of modules is matched to an expected heat distribution pattern of the exhaust from the rocket to be launched. Further, modules can be prefabricated at another location, under controlled conditions, and subsequently installed. In case of damage during a launch, any damaged modules can be swapped out and replaced by new modules, thereby minimizing cost and downtime before a subsequent launch event. The modules can be made more weather-resistant by applying an epoxy sealant to their rocket-facing surfaces.