Nome |
# |
Comparison of FPGA and Microcontroller Implementations of an Innovative Method for Error Magnitude Evaluation in Reed–Solomon Codes, file e177fbc6-be90-50b0-e053-d805fe0adaee
|
150
|
IoT Wearable Sensor and Deep Learning: an Integrated Approach for Personalized Human Activity Recognition in a Smart Home Environment, file e177fbc7-5332-50b0-e053-d805fe0adaee
|
131
|
A Wi-Fi cloud-based portable potentiostat for electrochemical biosensors, file e177fbc7-4fcc-50b0-e053-d805fe0adaee
|
118
|
RSSI-Based Indoor Localization and Identification for ZigBee Wireless Sensor Networks in Smart Homes, file e177fbc7-5330-50b0-e053-d805fe0adaee
|
76
|
A new approach to image-based estimation of food volume, file e177fbc5-8ebc-50b0-e053-d805fe0adaee
|
66
|
A self-calibrating IoT portable electrochemical immunosensor for serum human epididymis protein 4 as a tumor biomarker for ovarian cancer, file e177fbc6-c866-50b0-e053-d805fe0adaee
|
50
|
An IoT Approach for an AAL Wi-Fi-Based Monitoring System, file e177fbc7-4fc3-50b0-e053-d805fe0adaee
|
49
|
AALISABETH: lifestyle tutoring through ambient intelligence, file e177fbc4-3889-50b0-e053-d805fe0adaee
|
33
|
A model‐based design floating‐point accumulator. Case of study: FPGA implementation of a support vector machine kernel function, file e177fbc6-c5dd-50b0-e053-d805fe0adaee
|
33
|
A plug and play IoT Wi-Fi smart home system for human monitoring, file e177fbc6-397e-50b0-e053-d805fe0adaee
|
27
|
The FOOD project: sustainable AAL services in the kitchen environment, file e177fbc4-3888-50b0-e053-d805fe0adaee
|
25
|
Study of a Synchronization System for Distributed Inverters Conceived for FPGA Devices, file e177fbc7-08d2-50b0-e053-d805fe0adaee
|
18
|
Minimization of network induced jitter impact on FPGA-based control systems for power electronics through forward error correction, file e177fbc6-c27c-50b0-e053-d805fe0adaee
|
16
|
Performance Evaluation of Ultra Thin gate Oxide CMOS Circuits, file e177fbc4-112a-50b0-e053-d805fe0adaee
|
15
|
Monitoring and identification of trends and abnormal behaviors using an AAL systems, file e177fbc4-3885-50b0-e053-d805fe0adaee
|
15
|
Fall Detection and Gait Analysis in a Smart-Home Environment, file e177fbc4-463d-50b0-e053-d805fe0adaee
|
14
|
Brain-Computer Interfaces per AAL, file e177fbc4-3209-50b0-e053-d805fe0adaee
|
13
|
An integrated IoT-Wi-Fi board for remote data acquisition and sharing from innovative immunosensors. Case of study: Diagnosis of celiac disease, file e177fbc7-4d61-50b0-e053-d805fe0adaee
|
13
|
Il progetto "FOOD": supporto alla vita indipendente attraverso l'alimentazione, file e177fbc4-320c-50b0-e053-d805fe0adaee
|
9
|
PARMA CITTÀ FUTURA VOLUME II
Il libro bianco, file e177fbc7-5287-50b0-e053-d805fe0adaee
|
9
|
Behavioral analysis based on environmental, low-cost sensors, file e177fbc4-320f-50b0-e053-d805fe0adaee
|
7
|
An integrated IoT-Wi-Fi board for remote data acquisition and sharing from innovative immunosensors. Case of study: Diagnosis of celiac disease, file e177fbc6-2bdf-50b0-e053-d805fe0adaee
|
7
|
A smart portable potentiostat for Point-of-Care Testing, file e177fbc8-189e-50b0-e053-d805fe0adaee
|
6
|
Prediction of Kick Count in Triathletes during Freestyle Swimming Session Using Inertial Sensor Technology, file d190b905-8c81-457f-b490-4e1e73079f78
|
4
|
A Wi-Fi cloud-based portable potentiostat for electrochemical biosensors, file e177fbc6-d60a-50b0-e053-d805fe0adaee
|
4
|
NB-IoT and Wi-Fi technologies, an integrated approach to enhance portability of smart sensors, file e177fbc7-2932-50b0-e053-d805fe0adaee
|
4
|
Smart Immunosensors for Point-of-Care Serological Tests Aimed at Assessing Natural or Vaccine-Induced SARS-CoV-2 Immunity, file 48e8d4e5-fc10-419e-b1ac-6cbb605d98e5
|
3
|
The FOOD project: Interacting with distributed intelligence in the kitchen environment, file e177fbc4-440c-50b0-e053-d805fe0adaee
|
3
|
A flexible machine learning based framework for state of charge evaluation, file 36b93353-24cb-4fc1-9c50-84abdca79071
|
2
|
Simple and efficient methods for steady state visual evoked potential detection in BCI embedded system, file e177fbc4-0862-50b0-e053-d805fe0adaee
|
2
|
A Wireless Sensor Platform for Assistive Technology Applications, file e177fbc4-30b8-50b0-e053-d805fe0adaee
|
2
|
Electrical Appliances Networking: An Ultra-Low Cost Solution Based on Power-Line Communication, file e177fbc4-4571-50b0-e053-d805fe0adaee
|
2
|
A plug&play Brain Computer Interface solution for AAL systems, file e177fbc5-67d8-50b0-e053-d805fe0adaee
|
2
|
Plug&Play Brain–Computer Interfaces for effective Active and Assisted Living control, file e177fbc5-6838-50b0-e053-d805fe0adaee
|
2
|
Self-tuning behavioral analysis in AAL 'FOOD' project pilot environments, file e177fbc5-6fc9-50b0-e053-d805fe0adaee
|
2
|
MuSa: A smart wearable sensor for active assisted living, file e177fbc5-7204-50b0-e053-d805fe0adaee
|
2
|
Brain.me: Low-cost brain computer interface methods for AAL scenarios, file e177fbc5-9808-50b0-e053-d805fe0adaee
|
2
|
Controlling AAL environments through BCI, file e177fbc6-ce07-50b0-e053-d805fe0adaee
|
2
|
A Low Cost Brain Computer Interface Platform for AAL Applications, file e177fbc6-ce09-50b0-e053-d805fe0adaee
|
2
|
The HELICOPTER project: A heterogeneous sensor network suitable for behavioral monitoring, file e177fbc6-ce0b-50b0-e053-d805fe0adaee
|
2
|
A BCI Platform Supporting AAL Applications, file e177fbc6-ce69-50b0-e053-d805fe0adaee
|
2
|
Brain.me: A Low-Cost Brain Computer Interface for AAL Applications, file e177fbc6-d42d-50b0-e053-d805fe0adaee
|
2
|
A stand-alone portable potentiostat with parallel channels for smart electrochemical analyses, file 2127a0f8-94d0-43c0-93bc-a8db6ffb2ac6
|
1
|
Rapid Quantification of SARS-Cov-2 Spike Protein Enhanced with a Machine Learning Technique Integrated in a Smart and Portable Immunosensor, file 97b89d9c-a6ab-46fe-b2c8-069807d05479
|
1
|
A highly sensitive electrochemical magneto-genosensing assay for the specific detection of a single nucleotide variation in the KRAS oncogene in human plasma, file bb125d55-ec7a-47a6-ab12-3568b1fe0a56
|
1
|
Reliability Assessment of Multi-Via Cu-Damascene Structures by Wafer-Level Isothermal Electromigration Tests, file e177fbc4-15bd-50b0-e053-d805fe0adaee
|
1
|
Monitoraggio indiretto dell'attività e del benessere di persone che vivono in ambienti intelligenti, file e177fbc4-320d-50b0-e053-d805fe0adaee
|
1
|
Favorire l'Indipendenza Attraverso l'Uso dell'Intelligenza Distribuita in una Casa Domotica, file e177fbc4-4557-50b0-e053-d805fe0adaee
|
1
|
Improving BCI usability as HCI in ambient assisted living system control, file e177fbc5-4da7-50b0-e053-d805fe0adaee
|
1
|
Subject-independent, SSVEP-based BCI: Trading off among accuracy, responsiveness and complexity, file e177fbc5-5010-50b0-e053-d805fe0adaee
|
1
|
A multi-modal BCI system for active and assisted living, file e177fbc5-525b-50b0-e053-d805fe0adaee
|
1
|
Hybrid BCI systems as HCI in ambient assisted living scenarios, file e177fbc5-525d-50b0-e053-d805fe0adaee
|
1
|
SSVEP-based BCI: A “Plug & play” approach, file e177fbc5-5daf-50b0-e053-d805fe0adaee
|
1
|
Exploitation of a compact, cost-effective EEG module for plug-and-play, SSVEP-based BCI, file e177fbc5-6381-50b0-e053-d805fe0adaee
|
1
|
AAL in Italia, primo libro bianco, file e177fbc6-1e58-50b0-e053-d805fe0adaee
|
1
|
Design for a low cost brain-computer interface for environmental and home control, file e177fbc6-cbe5-50b0-e053-d805fe0adaee
|
1
|
RSSI-Based Indoor Localization and Identification for ZigBee Wireless Sensor Networks in Smart Homes, file e177fbc7-5601-50b0-e053-d805fe0adaee
|
1
|
An IoT Approach for an AAL Wi-Fi-Based Monitoring System, file e177fbc7-5604-50b0-e053-d805fe0adaee
|
1
|
IoT and Biosensors: A Smart PortablePotentiostat With AdvancedCloud-Enabled Features, file e177fbc7-5e27-50b0-e053-d805fe0adaee
|
1
|
Totale |
963 |