P3373
A preclinical system prototype for focused microwave thermal therapy of the breast.Self-characterization of commercial ultrasound probes in transmission acoustic inverse scattering: transducer model and volume integral formulation.Microwave breast imaging system prototype with integrated numerical characterization.Real-time microwave imaging of differential temperature for thermal therapy monitoring.Real-Time 3D Microwave Monitoring of Interstitial Thermal Therapy.Large domain, low-contrast acoustic inverse scattering for ultrasound breast imaging.Combined Radar-Radiometer Surface Soil Moisture and Roughness Estimation.An Approach to Mapping Forest Growth Stages in Queensland, Australia through Integration of ALOS PALSAR and Landsat Sensor DataCanadian Experiment for Soil Moisture in 2010 (CanEx-SM10): Overview and Preliminary ResultsEffects of fine-scale soil moisture and canopy heterogeneity on energy and water fluxes in a northern temperate mixed forestTemporal dynamics of soil moisture in a northern temperate mixed successional forest after a prescribed intermediate disturbanceData Assimilation to Extract Soil Moisture Information from SMAP ObservationsThe Soil Moisture Active Passive (SMAP) MissionComparison of downscaling techniques for high resolution soil moisture mappingRetrieval of Parameters for Three-Layer Media with Nonsmooth Interfaces for Subsurface Remote SensingPower-Management Techniques for Wireless Sensor Networks and Similar Low-Power Communication Devices Based on Nonrechargeable BatteriesSurface Soil Moisture Retrieval Using the L-Band Synthetic Aperture Radar Onboard the Soil Moisture Active–Passive Satellite and Evaluation at Core Validation SitesThe SMAP mission combined active-passive soil moisture product at 9 km and 3 km spatial resolutionsA Method for Upscaling In Situ Soil Moisture Measurements to Satellite Footprint Scale Using Random ForestsElectromagnetic Imaging of Dielectric Objects Using a Multi-Directional Search-Based Simulated AnnealingAssessment of the SMAP Level-4 Surface and Root-Zone Soil Moisture Product Using In Situ MeasurementsThe Soil Moisture Active Passive Validation Experiment 2012 (SMAPVEX12): Prelaunch Calibration and Validation of the SMAP Soil Moisture AlgorithmsHuman activity recognition using magnetic induction-based motion signals and deep recurrent neural networksAuthor Correction: Human activity recognition using magnetic induction-based motion signals and deep recurrent neural networks
P50
Q30374959-5EF0460A-7B71-4F2F-B8C5-B24E81C97DC6Q30432312-DFDD9F62-4A26-42B4-ADDB-47C24CA3A3A3Q30468716-94963582-A438-435C-B612-331F066B06E7Q34091058-F554FB33-7699-4016-B7CD-A47B2E4D3BA0Q47852029-87051A68-8E51-4E89-8233-274D136C84A6Q51678811-1A776623-7913-4C8C-AC5E-5E0EBFA052CFQ55400598-32292197-0EC2-48CA-8A8D-0619347E95A8Q57057336-03BA0911-CF79-49AC-932C-908517E52811Q58053513-01777D4B-D576-48F9-9C4F-5BE7C188E3AAQ58118394-58F367AD-D875-4D82-BF7E-6918E5BEC4E8Q58118469-7D1FF585-80FE-4431-B958-435EA78F8D07Q58393123-B8226C24-4F55-49CF-83F3-C304554EEC2FQ58393229-536BF88D-A6AC-456B-AEC5-C4C2FA9910A2Q58648111-8A472235-DAF3-4529-82C6-4F03A25DD1C9Q58702237-1DFA3901-722E-4EF6-A5A0-6ECCF9BFE384Q58907733-C1183938-77C7-4BE3-828E-4740E6119131Q59185801-201E3613-4453-4AF6-942A-F25088FF96EDQ60058911-19F03682-C0F5-41B3-B31F-4EA0B964E362Q60058917-273C4436-4990-41D5-AB81-39FF7E7A418CQ60558898-79EE2353-053B-43A3-8970-68F4DB144924Q61734901-8F210DDB-168F-4288-985C-FFD125628363Q61734951-7E40C5C2-0474-4597-BD3D-0C3EFAD6C090Q90664315-FA042AD3-DA84-4199-A993-29D82FB89C6AQ96131205-08700E2A-0AF1-4936-ADD9-BD66D2B0480B
P50
description
Iranian-American electrical and computer engineer
@en
wetenschapper
@nl
name
Mahta Moghaddam
@en
Mahta Moghaddam
@nl
type
label
Mahta Moghaddam
@en
Mahta Moghaddam
@nl
prefLabel
Mahta Moghaddam
@en
Mahta Moghaddam
@nl
P166
P1960
9RgRd-8AAAAJ
P2002
P21
P31
P3373
P496
0000-0001-5304-2616