Brian D Mccarthy from 10 Summit Ave, Paoli, PA 19301, age 50

Name / Title

Company / Classification

Phones & Addresses

Mr. Brian McCarthy
Owner

Brians Custom Woodworking
Woodworking

80 Regal Rd, Guelph, ON N1K 1C1
5198372911

Brian McCarthy
Owner/President

South Delta Glass Co Ltd
Glass-Auto. Plate & Window

110 6165 Hwy 17 R R 7, Delta, BC V4K 5B8
6049469711, 6049464872

Brian Mccarthy
Owner

A Unicorn's Garden
Ret Nursery/Garden Supplies · Landscaper

420 Old Lincoln Hwy, Frazer, PA 19355
PO Box 21, Frazer, PA 19355
PO Box 1, Malvern, PA 19355
6106474212

Brian M. Mccarthy
Principal

Aaron Direct
Equipment Rental/Leasing

1100 E Hector St, Conshohocken, PA 19428

Brian Mccarthy
Partner

Home and Garden Culture
Ret Nursery/Garden Supplies

908 E Baltimore Pike, Kennett Sq, PA 19348
6103886300

Brian Mccarthy
Chief Operating Officer

Spyware
Business Consulting Services

227 York Rd, Warminster, PA 18974

Brian McCarthy
Director - Information Systems

Robert J Risimini MD
Medical Doctor's Office

504 White Horse Pike, Haddon Heights, NJ 08035
8565467990

Brian Mccarthy
Principal

Ascendence
Business Services at Non-Commercial Site · Nonclassifiable Establishments

2576 Stoneybrook Ln, Oakview, PA 19026

Resumes

Brian Mccarthy Dover, DE

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Work:

Superior Court of Delaware

2013 to 2000
Law Clerk Supreme Court of Delaware
Dover, DE
2012 to 2013
Wolcott Fellow Delaware County District Attorney's Office
Media, PA
2012 to 2012
Certified Legal Intern Summer InternPhiladelphia, PA
2011 to 2011 Friends of Guy
Wayne, PA
2008 to 2008
Campaign Manager The Phoenixville Phoenix
Phoenixville, PA
2007 to 2008
Staff Writer

Education:

Widener University School of Law
Wilmington, DE
May 2013
J.D. in summa

Brian Mccarthy Frederick, MD

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Work:

ERT, Inc.

2011 to 2000
Project Manager, Environmental Services Division The Shaw Group
Stoughton, MA
2010 to 2011
Project Manager, Applied Science & Engineering AECOM
Westford, MA
2004 to 2010
Assistant Project Manager, Remediation & Site Restoration CEA
West Boylston, MA
2002 to 2004
Sr. Staff Scientist / Operations Supervisor University of Delaware, Department of Geological Sciences
Newark, DE
2001 to 2002
Research Assistant

Education:

University of Massachusetts, Dartmouth
Dartmouth, MA
2009 to 2011
Graduate Coursework in Oceanography Harvard University
Cambridge, MA
2007 to 2009
Graduate Coursework in Sustainability and Environmental Management University of Delaware
Newark, DE
1997 to 2002
B.S. in Geosciences

Skills:

OSHA 8-hour HAZWOPER Supervisor (Current); OSHA 30-hour Construction Safety (Current); OSHA 40-hour HAZWOPER (Current); OSHA 8-hour HAZWOPER Annual Refresher (Current through 2014); OSHA Confined Space Entry Supervisor (Current); First-Aid, Adult CPR, AED (Current through 2014); and Smith System Advanced On Road Defensive Driving (Current)

Brian Mccarthy Morrisville, PA

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Work:

First Advantage, BackTrack Reports Group

Oct 2009 to 2000
Database Researcher Dow Jones & Company Inc
Princeton, NJ
Jul 2008 to Jul 2009
Database Statistician RL Associates Inc
Chester, PA
Jun 2005 to 2007
Research Technician

Education:

Pennsylvania State University
State College, PA
Jan 2008
Bachelor of Science in Physics

Skills:

Advanced skills in Microsoft Office suite including Word, Excel, and VBA programming Experience with object oriented programming, with a focus on the Python programming language Proficient in statistical methods, probability theory, and advanced calculus Passed Chartered Financial Analyst (CFA) Level I examination

Us Patents

Tone Detection
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US Patent:

20030012358, Jan 16, 2003
Filed:

Apr 25, 2001
Appl. No.:

09/841938
Inventors:

Scott Kurtz - Burlington NJ, US
Brian McCarthy - Montgomery PA, US
International Classification:

H04M001/00
H04M003/00
US Classification:

379/346000, 379/406130
Abstract:

A DFT is used to compute the magnitude and phase of the frequencies desired to be detected in a frame of sampled data by performing 2 dot products for each such frequency. The two dot products are calculated using the samples in the frame and an equal number of equally spaced cosine and sine coefficients for each frequency to be detected.

Echo Canceller
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US Patent:

20030016815, Jan 23, 2003
Filed:

Mar 13, 2001
Appl. No.:

09/805351
Inventors:

Scott Kurtz - Burlington NJ, US
Brian McCarthy - Lafayette Hill PA, US
International Classification:

H04M009/08
US Classification:

379/406010
Abstract:

A method of echo cancellation for a signal transmission system in which the size of the step used to adapt filter coefficients is adjusted in accordance with the echo delay and in which stationary signals are avoided by determining when the mean and variance of coefficients obtained from a second order linear predictive coding analysis of successive far end samples exceed preset thresholds.

Detection Of Multifrequency Tone Signals
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US Patent:

53331915, Jul 26, 1994
Filed:

Apr 22, 1993
Appl. No.:

8/051189
Inventors:

Brian M. McCarthy - Lafayette Hill PA
Assignee:

InterDigital Technology Corporation - Wilmington DE
International Classification:

H04M 900
US Classification:

379386
Abstract:

A method of operating a digital signal processor to detect DTMF tones in a digital voice telephone system in which the digitally encoded signals appearing on the telephone channel are decimated to compress the spectrum to be monitored for the appearance of call signalling tones. The signals received in a decimated block are "correlated" or convolved with one another on a forward and backward time-shifted basis and each forward and backward correlation product is summed to form the elements of a 5. times. 5 modified covariance matrix. The modified covariance matrix exhibits the desirable property that its eigenvectors will be symmetric. Since all eigenvectors of the modified covariance matrix are orthogonal and the eigenvectors associated with the signal span the signal subspace, the signal subspace is orthogonal to the eigenvector associated with the noise. The dot product of the noise eigenvector with the signal subspace is set to zero. The roots of the resultant polynomial identify the frequencies of the DTMF tones, if in fact the same were present in the received signal.