ROBERT MILLER
Real Estate Commission in Pittsburgh, PA

License number
Pennsylvania RS276304
Category
Real Estate Commission
Type
Real Estate Salesperson-Standard
Address
Address
Pittsburgh, PA 15205

Personal information

See more information about ROBERT MILLER at radaris.com
Name
Address
Phone
Robert Miller
504 Helena St, West Mifflin, PA 15122
Robert Miller
501 Moylan Ave, Media, PA 19063
Robert Miller
501 N 7Th St, Apollo, PA 15613
Robert Miller
501 S 14Th Ave APT A, Lebanon, PA 17042
Robert Miller
502 3Rd St, Smithfield, PA 15478

Organization information

See more information about ROBERT MILLER at bizstanding.com

Robert Miller Plumbing Co

716 Riehl Dr, Pittsburgh, PA 15234

Industry:
Consumer Services, Plumbing/Heating/Air Cond Contractor Repair Services, Gas Leak Repair
Doing business as:
ROBERT MILLER
Phone:
(412) 561-5960 (Phone)
Description:
Robert Miller Plumbing Co is a Consumer Services company located in 716 Riehl Dr, Pittsburgh, Pennsylvania, United States.

Professional information

Robert Miller Photo 1

International Financial Services Professional

Location:
Greater Pittsburgh Area
Industry:
Financial Services
Work:
Independent Financial Services Consultant 2001 - 2012 - Consultant Standard Chartered Bank Jul 1991 - Feb 2000 - Senior Vice President Mellon Bank Jun 1980 - Jun 1991 - Vice President United States Government 1970 - 1980 - Foreign Service Officer
Education:
University of Pittsburgh 1970 - 1970
M.A.
Stanford University 1966 - 1970
B.A.
Phillips Exeter Academy 1963 - 1966


Robert Miller Photo 2

Failed Fuse Detector And Detecting Method For Rotating Electrical Equipment

US Patent:
4635045, Jan 6, 1987
Filed:
Dec 22, 1980
Appl. No.:
6/219095
Inventors:
Robert C. Miller - Penn Hills PA
Dale I. Gorden - Pittsburgh PA
Assignee:
Westinghouse Electric Corp. - Pittsburgh PA
International Classification:
G08B 2100
US Classification:
340638
Abstract:
A method and arrangement of apparatus is provided for remotely and selectively determining the existence of a failed fuse in the rectifier circuit of a brushless exciter rotor. A current transformer is disposed about each fuse in such a way that uses the conductor which carries current to the fuse as the primary winding of the current transformer. A light emitting diode is connected in series with the secondary winding of the current transformer. The emitted light, indicating a current flow through the fuse, is sensed by a stationary photodetector. This method senses the existence of a current flow through the exciter fuses and thereby positively determines each fuse that has not failed. Electronic circuitry is used to synchronize the detection operation with the rotation of the brushless exciter rotor so that each fuse is inspected at a time when it is expected to be carrying its maximum current. Since this method looks for the existence of current through each fuse, it operates in a failsafe manner.


Robert Miller Photo 3

Robert Miller - Pittsburgh, PA

Work:
Grant Street Group
Independent Financial Consultant
STANDARD CHARTERED BANK - New York, NY
Senior Vice President and Head
STANDARD CHARTERED BANK - London STANDARD CHARTERED BANK - New York, NY
Senior Vice President and Chief Credit Officer, the Americas
STANDARD CHARTERED BANK
Senior Vice President and Head
STANDARD CHARTERED BANK - London
Head
MELLON FINANCIAL SERVICES - London
Vice President and Head
MELLON FINANCIAL SERVICES MELLON FINANCIAL SERVICES
Assistant Vice President, Corporate Banking
UNITED STATES GOVERNMENT
FOREIGN SERVICE OFFICER
Education:
Stanford University
B.A.
University of Pittsburgh
M.A.


Robert Miller Photo 4

President At Rob Miller.com

Position:
president at rob miller.com
Location:
Greater Pittsburgh Area
Industry:
Construction
Work:
rob miller.com - president


Robert Miller Photo 5

Processing System For Detection And The Classification Of Flaws On Metallic Surfaces

US Patent:
4253768, Mar 3, 1981
Filed:
Aug 9, 1978
Appl. No.:
5/932235
Inventors:
Nicholas Yaroshuk - White Oak PA
Miklos Sarkozi - Murrysville PA
Robert C. Miller - Penn Hills PA
Paul G. Kennedy - Monroeville PA
Assignee:
Westinghouse Electric Corp. - Pittsburgh PA
International Classification:
G01N 2132
US Classification:
356431
Abstract:
This invention is a system of automatically classifying defects both for sorting defective products (metallic surfaces, especially tube surfaces) as to the reworking operation required for correcting the defect, and for classifying the defect as to the preceding manufacturing operation which is the most probable cause of that defect and sending a signal to that operation to provide for adjustments to minimize future defects. The system uses a source of electromagnetic radiation (typically a laser beam which is scanned across the surface) and at least two sensors (adjusted such that the radiation is reflected from a defect-free surface principally received by one of the sensors but that there is a measured amount of radiation in the other sensor). An average signal of the principal sensor is developed as a function of scan position. Threshold circuitry detects when the ratio of sensor signal to average signal varies by a predetermined amount.


Robert Miller Photo 6

Automatic Machine Tool Including A Monitoring System

US Patent:
4023044, May 10, 1977
Filed:
Jan 20, 1975
Appl. No.:
5/542315
Inventors:
Robert C. Miller - Pittsburgh PA
George T. Mallick - Pittsburgh PA
Assignee:
Westinghouse Electric Corporation - Pittsburgh PA
International Classification:
G08B 2100
US Classification:
307116
Abstract:
An automatic punch press and monitoring system. The monitoring system includes a piezoelectric accelerometer mounted within the stationary die shoe of the punch press, and electronic circuitry including a variable gain amplifier, a detector, an integrator, and a comparator. The monitoring system is manually placed in a "LEARN" mode whereupon the signal produced by the accelerometer during normal operation of the punch press is amplified, detected, and integrated over the time period of one stroke to produce a test function. The gain of the amplifier is automatically adjusted during successive normal strokes of the punch press until the test function is equal to an arbitrary set point, thereby establishing a reference function. The monitoring system is then automatically placed in an "AUTO CONTROL" mode whereupon on each succeeding stroke, with the gain of the amplifier fixed, the test function produced is compared with the reference function. If the test function is above a first high limit level corresponding to a percentage of the reference function and below a second high limit level corresponding to a second percentage of the reference function a check alarm is activated.


Robert Miller Photo 7

Method For Preparation Of Vo.sub.2 Current Inrush Limiters For Incandescent Lamps

US Patent:
4056378, Nov 1, 1977
Filed:
Sep 15, 1976
Appl. No.:
5/723387
Inventors:
James P. McHugh - Pittsburgh PA
Philip J. Nalepa - Greensburg PA
Robert C. Miller - Pittsburgh PA
Chester W. Dawson - Basking Ridge NJ
Assignee:
Westinghouse Electric Corporation - Pittsburgh PA
International Classification:
C03B 3200, C03B 3500, H01B 106
US Classification:
65 18
Abstract:
Current inrush limiter for incandescent lamps is made by mixing finely divided vanadium sesquioxide and vanadium pentoxide with finely divided glass-forming constituents which include vanadium compound. The mix is compacted and sintered in a substantially inert atmosphere which converts the vanadium oxides to vanadium dioxide maintained in a chemically stable and mechanically strong mass by vitreous binder.


Robert Miller Photo 8

Electric Energy Meter Having A Mutual Inductance Current Transducer

US Patent:
4491790, Jan 1, 1985
Filed:
Mar 16, 1982
Appl. No.:
6/358770
Inventors:
Robert C. Miller - Pittsburgh PA
Assignee:
Westinghouse Electric Corp. - Pittsburgh PA
International Classification:
G01R 1148, G01R 120
US Classification:
324142
Abstract:
An electric energy meter includes a mutual inductance current transducer formed by primary winding means for direct connection to the current component of an electric energy quantity to be measured. Secondary winding means is inductively coupled to the primary winding means to produce an analog signal that is proportional to the time derivative of the current component. The current responsive analog signal and a voltage responsive analog signal are both applied to an electronic watthour measuring circuit.


Robert Miller Photo 9

Mass Of Current Inrush Limiters

US Patent:
3975658, Aug 17, 1976
Filed:
Jun 10, 1975
Appl. No.:
5/585732
Inventors:
Peter R. Emtage - Pittsburgh PA
Philip J. Nalepa - Greensburg PA
Robert C. Miller - Pittsburgh PA
Assignee:
Westinghouse Electric Corporation - Pittsburgh PA
International Classification:
H05B 3904
US Classification:
315 71
Abstract:
An arrangement to eliminate the initial current overshoot which normally occurs when a tungsten incandescent lamp is connected to a power source. The arrangement uses a negative temperature coefficient thermistor having a certain predetermined mass. It has been determined that a practical limiter to eliminate current overshoot can be made only when the mass of the limiter is within a relatively narrow range. The hot and cold resistance of the limiter must also be within prescribed ranges to give a limiter which is not only effective in eliminating the current overshoot, but also efficient in steady state operation such that the limiter dissipates less than 1% of the total power.


Robert Miller Photo 10

Trapezoidal Coil Configuration For Metal Detector In The Shape Of An Inverted U

US Patent:
3950696, Apr 13, 1976
Filed:
Jan 2, 1975
Appl. No.:
5/538067
Inventors:
Robert C. Miller - Pittsburgh PA
George T. Mallick - Pittsburgh PA
Assignee:
Westinghouse Electric Corporation - Pittsburgh PA
International Classification:
G01R 3300
US Classification:
324 41
Abstract:
The invention relates to a trapezoidal, ladder-type coil configuration positioned as an inverted U to provide a passage thereunder for use in conjunction with magnetic field generating and magnetic field measuring circuitry to detect the presence of metal devices associated with objects, i. e. , parcels or persons, passing through the passage. The ladder configuration of the coil establishes magnetic fields within the passage which exhibit sufficiently strong components in three orthogonal directions (x, y and z) to assure detection of metal devices regardless of the orientation of the metal devices.