Dr. Ahmed graduated from the Nishtar Med Coll, Bahuddin Zakaria Univ, Multan, Pakistan in 1969. He works in Las Vegas, NV and 1 other location and specializes in Cardiovascular Disease and Interventional Cardiology. Dr. Ahmed is affiliated with Desert Springs Hospital Medical Center, Sunrise Hospital & Medical Center, Valley View Medical Center and Western Arizona Regional Medical Center.
Mohamed S Ahmed MD Phd 2931 Military Rd, Niagara Falls, NY 14304 7162984869 (phone), 8888473060 (fax)
Erie County Medical Center Hematology Oncology 462 Grider St FL 2, Buffalo, NY 14215 7168983948 (phone), 7169616969 (fax)
Education:
Medical School St. George's University School of Medicine, St. George's, Greneda Graduated: 2002
Procedures:
Bone Marrow Biopsy Chemotherapy
Conditions:
Anemia Iron Deficiency Anemia Leukemia Non-Hodgkin's Lymphoma Hemolytic Anemia
Languages:
English Spanish
Description:
Dr. Ahmed graduated from the St. George's University School of Medicine, St. George's, Greneda in 2002. He works in Niagara Falls, NY and 1 other location and specializes in Hematology/Oncology. Dr. Ahmed is affiliated with Erie County Medical Center, Mount Saint Marys Hospital and Niagara Falls Memorial Medical Center.
Northwell Health Physician PartnersNorth Shore University Hospital Neonatology 300 Community Dr, Manhasset, NY 11030 5165624665 (phone)
Education:
Medical School Suez Canal Univ, Fac of Med, Ismailia, Egypt Graduated: 1987
Procedures:
Pulmonary Function Tests
Conditions:
Acute Upper Respiratory Tract Infections Anemia Bacterial Pneumonia Cleft Palate and Cleft Lip Conditions of Pregnancy and Delivery
Languages:
English
Description:
Dr. Ahmed graduated from the Suez Canal Univ, Fac of Med, Ismailia, Egypt in 1987. He works in Manhasset, NY and specializes in Neonatal-Perinatal Medicine. Dr. Ahmed is affiliated with North Shore University Hospital and Steven & Alexandra Cohen Childrens Medical Center Of New York.
Dr. Ahmed graduated from the Univ of Cairo, Fac of Med, Cairo, Egypt (330 02 Prior 1/71) in 1981. He works in Oswego, NY and specializes in Internal Medicine. Dr. Ahmed is affiliated with Oswego Hospital.
Dr. Ahmed graduated from the Univ of Colombo, Fac of Med, Colombo, Sri Lanka in 2002. He works in Danbury, CT and specializes in Internal Medicine. Dr. Ahmed is affiliated with Danbury Hospital.
Dr. Ahmed graduated from the Univ of Cairo, Fac of Med, Cairo, Egypt (330 02 Prior 1/71) in 1992. He works in Baytown, TX and 1 other location and specializes in Psychiatry and Child & Adolescent Psychiatry. Dr. Ahmed is affiliated with Houston Methodist San Jacinto Hospital.
Amna Medical Center 300 E Pulaski Hwy STE 104A, Elkton, MD 21921 4103928182 (phone), 4432453736 (fax)
Education:
Medical School Ain Shams Univ, Fac of Med, Abbasia, Cairo, Egypt (330 04 Pr 1/71) Graduated: 1989
Languages:
English Spanish
Description:
Dr. Ahmed graduated from the Ain Shams Univ, Fac of Med, Abbasia, Cairo, Egypt (330 04 Pr 1/71) in 1989. He works in Elkton, MD and specializes in Anesthesiology and Pain Management.
Sep 2009 to Sep 2009 Broadcast Engineer"SHOWTIME "
May 2007 to Sep 2009 Technical Operator - NOCAl-Faris Computer
Jun 2004 to Nov 2005 Technical Support
Education:
Ibn Seena High School Dubai Jul 2007 O-Level in Math & PhysicsAjman University of Science & Technology Jun 2004 Bachelor's in Electrical & Communication Engineering
Future Scientist School Sanaa Sep 2012 to Jun 2014 Basketball TeacherChevron Hayward, CA 2011 to 2012 Graveyard CashierShell San Leandro, CA 2008 to 2011 Cashier MaintenanceTarget Sacramento, CA 2006 to 2008 Men sales floorCost plus World Market Elk Grove, CA 2005 to 2006 Stocker/Customer ServiceFast Gas&shop Oakland, CA 2004 to 2005 Assistant ManagerChico Liquor Oakland, CA 1999 to 2004 Cashier
Education:
Chabot College Hayward, CA 2012 to 2017 Criminal Justice & Accounting
2014 to 2000 DRIVERH.I.L IMPORTS Surrey, BC Feb 2005 to Sep 2012 Sales Associate/Customer ServiceURBAN THUMBPRINT New Westminster, BC 2010 to 2012 Appointment management
- San Diego CA, US Xiaoxia ZHANG - San Diego CA, US Zhifei FAN - San Diego CA, US Jing SUN - San Diego CA, US Tao LUO - San Diego CA, US Wooseok NAM - San Diego CA, US Mohamed Fouad Ahmed MARZBAN - San Diego CA, US Qingjiang TIAN - San Diego CA, US Hemant SAGGAR - Irvine CA, US
International Classification:
H04W 24/08
Abstract:
Certain aspects of the present disclosure provide techniques for frequency tracking and timing tracking using wideband reference signals (RSs). A method that may be performed by a user equipment (UE) includes monitoring for a wideband RS from a network entity when one or more conditions are met, the wideband RS occupying a wider band of frequency resources than a tracking reference signal (TRS) transmitted by the network entity; and performing at least one of frequency tracking or timing tracking based on the monitoring.
Highly Configurable Front End For Touch Controllers
- San Diego CA, US Mohamed Imtiaz Ahmed - San Marcos CA, US Dustin Tarl Dunwell - Toronto, CA William Martin Snelgrove - Toronto, CA Ayaz Hasan - Milton, CA Matthew David James - Guelph, CA
International Classification:
G06F 3/044 G06F 3/041
Abstract:
In some aspects of the present disclosure, a touch-panel interface includes a plurality of receivers, wherein each of the receivers is coupled to one or more receive lines of a touch panel, and each of the receivers includes a switch capacitor network and an amplifier. The touch-panel interface also includes controller configured to control switches in the switch capacitor network of each of one or more of the receivers to operate each of the one or more of the receivers in one of a plurality of different receiver modes.
Highly Configurable Front End For Touch Controllers
- San Diego CA, US Mohamed Imtiaz Ahmed - San Marcos CA, US Dustin Tarl Dunwell - Toronto, CA William Martin Snelgrove - Toronto, CA Ayaz Hasan - Milton, CA Matthew David James - Guelph, CA
International Classification:
G06F 3/044 G06F 3/041
Abstract:
In some aspects of the present disclosure, a method for touch-panel processing is provided. The method includes receiving a plurality of sensor signals from a touch panel, wherein each one of the plurality of sensor signals corresponds to a respective one of a plurality of channels of the touch panel. The method also includes, for each one of the received sensor signals, converting the received sensor signal into one or more respective digital values. The method further includes, for each one of the received sensor signals, performing digital processing on the one or more respective digital values using a respective one of a plurality of processing engines to generate one or more respective processed digital values. The method further includes performing additional processing on the processed digital values.
Systems And Methods Of Moisture Detection And False Touch Rejection On Touch Screen Devices
- San Diego CA, US William Yee-Ming Huang - Vista CA, US Qiang Gao - San Diego CA, US Hsun Wei David Wong - San Diego CA, US Carol King Mui Law - San Diego CA, US Raghukul Tilak - San Diego CA, US Rex Wang - San Diego CA, US Suhail Jalil - Poway CA, US Mohamed Imtiaz Ahmed - San Marcos CA, US
International Classification:
G06F 3/041 G06F 3/044
Abstract:
The presence of moisture on a touch screen device can mimic a user's touch causing false input detection and recognition. Disclosed are systems and methods for detecting the presence of moisture on a touch screen device.
- San Diego CA, US Mohamed Imtiaz Ahmed - San Marcos CA, US Hsun Wei David Wong - San Diego CA, US Raghukul Tilak - San Diego CA, US Qiang Gao - San Diego CA, US Suhail Jalil - Poway CA, US Teresa Ka Ki Ng - San Diego CA, US Carol King Mui Law - San Diego CA, US Rex Wang - San Diego CA, US
International Classification:
G06F 3/041
Abstract:
Systems and methods are disclosed for determining a touch position from data received from a touch panel. In one implementation, an apparatus for processing a touch input signal includes a processor that may be configured for parallel processing, a touch device, a memory, operably connected to the processor, and configured to store processor instructions. The processor instructions can configure the processor to receive a plurality of data points corresponding to a plurality of touch events on the touch device, determine a center of mass estimate from the plurality of data points, determine a search radius of center of mass estimate, and determine an optimal touch point position based on the center of mass estimate and the search radius using the processor.
System And Method For Using Touch Orientation To Distinguish Between Users Of A Touch Panel
- San Diego CA, US Suhail Jalil - Poway CA, US Mohamed Imtiaz Ahmed - San Marcos CA, US Robert Scott Tartz - San Marcos CA, US
International Classification:
G06F 3/0354 G06F 3/041
Abstract:
Methods, devices, and computer program products for using touch orientation to distinguish between users are disclosed herein. In one aspect, a method of identifying a user of a touch device from a plurality of users of the touch device is described. The method includes receiving touch data from a touch panel of the touch device, the touch data indicating a user's touch on the touch screen. The method further includes determining an orientation of the user's touch based on the received touch data. Finally, the method includes identifying the user of the plurality of users which touched the device, based at least in part on the orientation of the touch.
- San Diego CA, US Suhail Jalil - Poway CA, US Mohamed Imtiaz Ahmed - San Marcos CA, US Dat Tien Pham - San Diego CA, US
Assignee:
QUALCOMM Incorporated - San Diego CA
International Classification:
G06F 3/044 G06F 3/041
Abstract:
Certain aspects relate to systems and techniques for scan control for scanning a touch panel. The scan control system can alternate adaptively between scanning the touch panel in a passive scan mode requiring minimal power and in a focused active scan mode that sequentially scans only a portion of the touch panel. The scan control system can monitor the absolute capacitance of some or all of the sensors of the touch panel in passive scan mode and can monitor the mutual capacitance of a portion of the touch panel in focused active scan mode. If the absolute capacitance of any sensor is greater than the baseline capacitance, then the scan control can use this absolute capacitance touch data to determine one or more sub-regions of the touch panel for scanning in focused active scan mode. The mutual capacitance touch data can be used for determining features of the touch event.
Method And Apparatus For Improving Power Consumption On A Touch Device
- San Diego CA, US William Yee-Ming Huang - Vista CA, US Qiang Gao - San Diego CA, US Hsun Wei David Wong - San Diego CA, US Carol King Mui Law - San Diego CA, US Rex Wang - San Diego CA, US Suhail Jalil - Poway CA, US Raghukul Tilak - San Diego CA, US Mohamed Imtiaz Ahmed - San Marcos CA, US
International Classification:
G06F 1/32 G06F 3/045 G06F 3/044
Abstract:
Lower report rates are desirable in touch devices to minimize power consumption. However, lower report rates lead to inaccurate and untimely depiction of a user's touch inputs on a touch display device. Disclosed are methods and apparatus for using a lower report rate; while maintaining substantially the same or better user experience achieved by using a higher report rate.