| Nome |
# |
|
Recent Advances in Time-resolved Nir Spectroscopy for Nondestructive Assessment of Fruit Quality, file e0c31c09-3fdc-4599-e053-1705fe0aef77
|
344
|
|
Time domain functional NIRS imaging for human brain mapping, file e0c31c09-4231-4599-e053-1705fe0aef77
|
344
|
|
Performance assessment of time-domain optical brain imagers, part 1: basic instrumental performance protocol, file e0c31c09-52e1-4599-e053-1705fe0aef77
|
324
|
|
New frontiers in time-domain diffuse optics, a review, file e0c31c09-f35a-4599-e053-1705fe0aef77
|
290
|
|
Optical properties–microstructure–texture relationships of dried apple slices: Spatially resolved diffuse reflectance spectroscopy as a novel technique for analysis and process control, file e0c31c08-471d-4599-e053-1705fe0aef77
|
257
|
|
Solid switchable phantom for diffuse optical imaging, file e0c31c09-52eb-4599-e053-1705fe0aef77
|
250
|
|
A compact time-resolved system for near infrared spectroscopy based on wavelength space multiplexing, file e0c31c0c-930c-4599-e053-1705fe0aef77
|
241
|
|
Linear regression models and k-means clustering for statistical analysis of fNIRS data, file e0c31c09-4545-4599-e053-1705fe0aef77
|
238
|
|
Design and construction of a solid switchable phantom for diffuse optical imaging, file e0c31c09-52f1-4599-e053-1705fe0aef77
|
234
|
|
In-vivo multilaboratory investigation of the optical properties of the human head, file e0c31c09-6065-4599-e053-1705fe0aef77
|
229
|
|
Mechanically switchable solid inhomogeneous phantom for performance tests in diffuse imaging and spectroscopy, file e0c31c09-4bcd-4599-e053-1705fe0aef77
|
225
|
|
Hemodynamic and EEG Time-Courses During Unilateral Hand Movement in Patients with Cortical Myoclonus. An EEG-fMRI and EEG-TD-fNIRS Study., file e0c31c09-59e0-4599-e053-1705fe0aef77
|
193
|
|
Instrument response function acquisition in reflectance geometry for time-resolved diffuse optical measurements, file e0c31c0f-1a9b-4599-e053-1705fe0aef77
|
191
|
|
Optical Characterization of Benign and Malignant Breast Lesions by Perturbative Model, file e0c31c09-9f00-4599-e053-1705fe0aef77
|
188
|
|
Noninvasive optical estimation of CSF thickness for brain-atrophy monitoring, file e0c31c0c-471b-4599-e053-1705fe0aef77
|
180
|
|
In vivo depth heterogeneity of the abdomen assessed by broadband time-domain diffuse optical spectroscopy, file e0c31c0c-a33b-4599-e053-1705fe0aef77
|
174
|
|
Fiber-based hybrid probe for non-invasive cerebral monitoring in neonatology, file e0c31c09-50e3-4599-e053-1705fe0aef77
|
171
|
|
Effects of time-gated detection in diffuse optical imaging at short source-detector separation, file e0c31c08-287a-4599-e053-1705fe0aef77
|
169
|
|
Preliminary vastus lateralis characterization with time domain near infrared spectroscopy during incremental cycle exercise, file e0c31c0e-d4fd-4599-e053-1705fe0aef77
|
169
|
|
Clinical applications of TD-NIRS: A widespread scenario, file e0c31c10-65d8-4599-e053-1705fe0aef77
|
167
|
|
Relationship between texture sensory profiles and optical properties measured by time-resolved reflectance spectroscopy during post-storage shelf life of 'Braeburn' apples, file e0c31c08-913e-4599-e053-1705fe0aef77
|
165
|
|
Influence of maturity degree, modified atmosphere and anti-browning dipping on texture changes kinetics of fresh-cut apples, file e0c31c0a-94d3-4599-e053-1705fe0aef77
|
158
|
|
Use of 3D printed PLA for diffuse optics, file e0c31c10-46fc-4599-e053-1705fe0aef77
|
156
|
|
A recipe for near infrared spectroscopy and diffuse correlation spectroscopy phantoms with tunable optical and dynamic properties, file e0c31c0f-0416-4599-e053-1705fe0aef77
|
154
|
|
Effects of increasing neuromuscular electrical stimulation current intensity on cortical sensorimotor network activation: A time domain fNIRS study, file e0c31c09-4e90-4599-e053-1705fe0aef77
|
153
|
|
Performance assessment of time-domain optical brain imagers, part 2: nEUROPt protocol, file e0c31c08-4dd0-4599-e053-1705fe0aef77
|
147
|
|
High power time domain fNIRS device, file e0c31c10-1e1a-4599-e053-1705fe0aef77
|
147
|
|
In vivo measure of neonate brain optical properties and hemodynamic parameters by time-domain near-infrared spectroscopy, file e0c31c0c-89ee-4599-e053-1705fe0aef77
|
131
|
|
BabyLux device: a diffuse optical system integrating diffuse correlation spectroscopy and time-resolved near-infrared spectroscopy for the neuromonitoring of the premature newborn brain, file e0c31c0e-e98d-4599-e053-1705fe0aef77
|
131
|
|
Depth sensitivity of frequency domain optical measurements in diffusive media, file e0c31c0c-7090-4599-e053-1705fe0aef77
|
129
|
|
Time Domain Near Infrared Spectroscopy Device for Monitoring Muscle Oxidative Metabolism: Custom Probe and In Vivo Applications, file e0c31c0c-80fd-4599-e053-1705fe0aef77
|
127
|
|
Phantoms for diffuse optical imaging based on totally absorbing objects, part 2: experimental implementation, file e0c31c08-344b-4599-e053-1705fe0aef77
|
126
|
|
Optical properties, ethylene production and softening in mango fruit, file e0c31c09-4195-4599-e053-1705fe0aef77
|
126
|
|
Time-domain near-infrared spectroscopy in acute ischemic stroke patients, file e0c31c0e-d2bf-4599-e053-1705fe0aef77
|
124
|
|
Reliability of fNIRS for noninvasive monitoring of brain function and emotion in sheep, file e0c31c10-2e7d-4599-e053-1705fe0aef77
|
123
|
|
Characterizing the tissue of apple air-dried and osmo-air-dried rings by X-CT and OCT and relationship with ring crispness and fruit maturity at harvest measured by TRS, file e0c31c09-4287-4599-e053-1705fe0aef77
|
122
|
|
Estimate of tissue composition in malignant and benign breast lesions by time-domain optical mammography, file e0c31c09-4d0c-4599-e053-1705fe0aef77
|
117
|
|
Studies on classification models to discriminate ‘Braeburn’ apples affected by internal browning using the optical properties measured by time-resolved reflectance spectroscopy, file e0c31c09-3fad-4599-e053-1705fe0aef77
|
112
|
|
There's plenty of light at the bottom: Statistics of photon penetration depth in random media, file e0c31c09-e984-4599-e053-1705fe0aef77
|
112
|
|
Accuracy and precision of tissue optical properties and hemodynamic parameters estimated by the BabyLux device: A hybrid time-resolved near-infrared and diffuse correlation spectroscopy neuro-monitor, file e0c31c0f-2d9f-4599-e053-1705fe0aef77
|
107
|
|
A Versatile Setup for Time-Resolved Functional Near Infrared Spectroscopy Based on Fast-Gated Single-Photon Avalanche Diode and on Four-Wave Mixing Laser, file e0c31c0e-fe05-4599-e053-1705fe0aef77
|
105
|
|
Optical properties of developing pip and stone fruit reveal underlying structural changes, file e0c31c09-41b8-4599-e053-1705fe0aef77
|
103
|
|
NIRS-EMG for clinical applications: A systematic review, file e0c31c0e-d345-4599-e053-1705fe0aef77
|
98
|
|
Depth dependence of estimated optical properties of a scattering inclusion by time-resolved contrast functions, file e0c31c0c-31b1-4599-e053-1705fe0aef77
|
93
|
|
Cerebral oxygenation and blood flow in term infants during postnatal transition: BabyLux project, file e0c31c0e-e993-4599-e053-1705fe0aef77
|
93
|
|
Evaluation of sheep anticipatory response to a food reward by means of functional near-infrared spectroscopy, file e0c31c0f-33d9-4599-e053-1705fe0aef77
|
82
|
|
Non destructive detection of potato tubers internal defects: Critical insight on the use of timeresolved spectroscopy, file e0c31c10-b9a2-4599-e053-1705fe0aef77
|
79
|
|
Electronic nose pattern, sensory profile and flavor components of cold stored 'Spring Belle' peaches: Influence of storage temperatures and fruit maturity assessed at harvest by time-resolved reflectance spectroscopy, file e0c31c09-688e-4599-e053-1705fe0aef77
|
69
|
|
Optical characterization of 3D printed PLA and ABS filaments for diffuse optics applications, file e0c31c11-d849-4599-e053-1705fe0aef77
|
59
|
|
A PRELIMINARY APPROACH TO ASSESS PEACH FRUIT TEXTURE BY TIME-RESOLVED SPECTROSCOPY (TRS), file e0c31c09-46a3-4599-e053-1705fe0aef77
|
58
|
|
Quality and nutraceutical properties of mango fruit: Influence of cultivar and biological age assessed by time‐resolved reflectance spectroscopy, file e0c31c0d-68b9-4599-e053-1705fe0aef77
|
58
|
|
Cerebral time domain-NIRS: Reproducibility analysis, optical properties, hemoglobin species and tissue oxygen saturation in a cohort of adult subjects, file e0c31c0b-7860-4599-e053-1705fe0aef77
|
54
|
|
Characterizing apple texture during storage through mechanical, sensory and optical properties, file e0c31c09-481f-4599-e053-1705fe0aef77
|
49
|
|
A hybrid DCS and TD-NIRS device for monitoring tissue oxygenation and perfusion, towards ICU applications, file e0c31c11-f4bf-4599-e053-1705fe0aef77
|
48
|
|
Sustained fatigue assessment during isometric exercises with time-domain near infrared spectroscopy and surface electromyography signals, file e0c31c10-1a95-4599-e053-1705fe0aef77
|
47
|
|
Time-domain near-infrared spectroscopy in subjects with asymptomatic cerebral small vessel disease, file e0c31c10-cf89-4599-e053-1705fe0aef77
|
45
|
|
Reproducibility of identical solid phantoms, file e0c31c12-5a7c-4599-e053-1705fe0aef77
|
45
|
|
Bone tissue phantoms for optical flowmeters at large interoptode spacing generated by 3D-stereolithography, file e0c31c09-4255-4599-e053-1705fe0aef77
|
43
|
|
Validation of time domain near infrared spectroscopy in muscle measurements: Effect of a superficial layer, file e0c31c09-567c-4599-e053-1705fe0aef77
|
42
|
|
Glaucoma has a cerebral component: A TD-fNIRS study, file e0c31c10-1e1d-4599-e053-1705fe0aef77
|
40
|
|
Sensitivity of TD-NIRS in estimating neonatal cerebral hemodynamics with homogenous models of analysis, file e0c31c12-9bdf-4599-e053-1705fe0aef77
|
40
|
|
Brain activations during programming tasks: TD-NIRS and EEG study, file e0c31c12-647d-4599-e053-1705fe0aef77
|
39
|
|
Discrimination between healthy and glaucomatous subjects with TD-fNIRS, file e0c31c12-8e58-4599-e053-1705fe0aef77
|
39
|
|
Neurophotonics: non-invasive optical techniques for monitoring brain functions, file e0c31c09-4354-4599-e053-1705fe0aef77
|
33
|
|
Sensory profiles of various stored fruit species are affected by maturity class assessed by time-resolved reflectance spectroscopy at harvest, file e0c31c09-4406-4599-e053-1705fe0aef77
|
33
|
|
Forward solvers for photon migration in the presence of highly and totally absorbing objects embedded inside diffusive media, file e0c31c0d-e14e-4599-e053-1705fe0aef77
|
33
|
|
Assessment of Muscular Sustained Fatigue: A TD-NIRS and sEMG Study, file e0c31c12-5462-4599-e053-1705fe0aef77
|
33
|
|
Breast Monitoring by Time-Resolved Diffuse Optical Imaging, file e0c31c09-43cb-4599-e053-1705fe0aef77
|
32
|
|
Rehabilitation Monitoring After Bed Rest in Elderly: TD-NIRS and sEMG Preliminary Study, file e0c31c12-5470-4599-e053-1705fe0aef77
|
32
|
|
Time-resolved reflectance spectroscopy as a management tool for late-maturing nectarine supply chain, file e0c31c09-47ee-4599-e053-1705fe0aef77
|
31
|
|
Motor cortex hemodynamic response function in freely moving subjects recorded via time domain fNIRS, file e0c31c12-6d4a-4599-e053-1705fe0aef77
|
30
|
|
Adipose tissue thickness and optical properties affect differential pathlength factor in NIRS studies on human skeletal muscle, file e0c31c12-6f59-4599-e053-1705fe0aef77
|
29
|
|
Vastus Lateralis Muscle's Characterization on bedridden patients: a Time Domain fNIRS study, file 697ade93-b54f-4c4f-9572-1a8d4b63d50b
|
27
|
|
In vivo time-domain diffuse correlation spectroscopy of the human muscle above 1000 nm, file e0c31c0f-b903-4599-e053-1705fe0aef77
|
27
|
|
Effects and correctability of pile‑up distortion using established figures of merit in time‑domain diffuse optics at extreme photon rates, file e0c31c12-7b5c-4599-e053-1705fe0aef77
|
27
|
|
Cerebral oxygenation and blood flow in normal term infants at rest measured by a hybrid near-infrared device (BabyLux), file e0c31c0e-e9eb-4599-e053-1705fe0aef77
|
26
|
|
A multi-laboratory comparison of photon migration instruments and their performances: the BitMap exercise, file e0c31c11-3098-4599-e053-1705fe0aef77
|
26
|
|
Filament 3D printing technology for diffuse optics applications: Advantages and drawbacks, file e0c31c12-9144-4599-e053-1705fe0aef77
|
26
|
|
Liquid phantoms for near-infrared and diffuse correlation spectroscopies with tunable optical and dynamic properties, file e0c31c0f-3528-4599-e053-1705fe0aef77
|
23
|
|
Time-resolved NIRS: A clinical study on ischemic stroke patients, file e0c31c10-65d6-4599-e053-1705fe0aef77
|
22
|
|
Effect of adipose tissue thickness and tissue optical properties on the differential pathlength factor estimation for NIRS studies on human skeletal muscle, file e0c31c10-1e22-4599-e053-1705fe0aef77
|
17
|
|
Monitoring the haemodynamic response to visual stimulation in glaucoma patients, file e0c31c12-92b8-4599-e053-1705fe0aef77
|
17
|
|
Instrument response function acquisition in reflectance geometry for time-resolved diffuse optical measurements, file e0c31c0f-b764-4599-e053-1705fe0aef77
|
14
|
|
Anthocyanin and carotenoid contents assessed by timeresolved reflectance spectroscopy in potato tubers (Solanum tuberosum l.) with different flesh colors, file e0c31c10-c519-4599-e053-1705fe0aef77
|
12
|
|
Non-invasive estimation of in vivo optical properties and hemodynamic parameters of domestic animals: a preliminary study on horses, dogs, and sheep, file 857ef279-8090-454d-a4c6-8a01aadbb600
|
8
|
|
Depth-selective data analysis for time-domain fNIRS: Moments vs. time windows, file e0c31c10-34c6-4599-e053-1705fe0aef77
|
8
|
|
Effect of adipose tissue thickness and tissue optical properties on the differential pathlength factor estimation for NIRS studies on human skeletal muscle, file e73a4ab6-3ad1-4097-bbcf-b12562b15870
|
8
|
|
Validation of diffuse correlation spectroscopy against 15O-water PET for regional cerebral blood flow measurement in neonatal piglets, file e0c31c10-31a1-4599-e053-1705fe0aef77
|
7
|
|
Time domain NIRS sensitivity to neonatal brain haemodynamics, file e0c31c12-78d6-4599-e053-1705fe0aef77
|
6
|
|
In vivo time-domain diffuse correlation spectroscopy of the human muscle above 1000 nm, file e0c31c0e-d347-4599-e053-1705fe0aef77
|
5
|
|
Instrument response function acquisition in reflectance geometry for time-resolved diffuse optical measurements, file e0c31c0f-b763-4599-e053-1705fe0aef77
|
5
|
|
Quality Characteristics, Sensory Profiles and Ethylene Production of Stored ‘Abate Fetel’ Pears Sorted at Harvest by Time-Resolved Reflectance Spectroscopy, file 58b007bf-f322-4ea4-b3ae-c99fa5072915
|
4
|
|
Linear regression models and k-means clustering for statistical analysis of fNIRS data, file e0c31c09-4786-4599-e053-1705fe0aef77
|
4
|
|
Time-resolved reflectance spectroscopy reveals different texture characteristics in ‘Braeburn’, ‘Gala’ and ‘Kanzi®’ apples, file e0c31c0c-55d7-4599-e053-1705fe0aef77
|
4
|
|
Blood-lipid liquid phantom for assessing time and frequency domain tissue oximeter performances, file e0c31c0e-e992-4599-e053-1705fe0aef77
|
4
|
|
Motor cortex hemodynamic response function in freely moving subjects recorded via time domain fNIRS, file e0c31c12-6d4b-4599-e053-1705fe0aef77
|
4
|
|
Characterizing the tissue of apple air-dried and osmo-air-dried rings by X-CT and OCT and relationship with ring crispness and fruit maturity at harvest measured by TRS, file e0c31c08-14fa-4599-e053-1705fe0aef77
|
3
|
|
Electronic nose pattern, sensory profile and flavor components of cold stored 'Spring Belle' peaches: Influence of storage temperatures and fruit maturity assessed at harvest by time-resolved reflectance spectroscopy, file e0c31c09-45a5-4599-e053-1705fe0aef77
|
3
|
|
Instrument response function acquisition in reflectance geometry for time-resolved diffuse optical measurements, file e0c31c0f-29c4-4599-e053-1705fe0aef77
|
3
|
|
Time-resolved NIRS: A clinical study on ischemic stroke patients, file e0c31c10-1e1f-4599-e053-1705fe0aef77
|
3
|
| Totale |
9.302 |