Author |
Session |
Start page |
Title |
A A B C D E F G I J K L M N P R S T W Y Z |
Aghabozorgi Nafchi, Sadegh |
StICT.3.3 |
63 |
Toward Predictive Handover Mechanism in Software-Defined Enterprise Wi-Fi Networks |
Alharbi, Hatem |
StICT.3.1 |
49 |
The Impact of Inter-Virtual Machine Traffic on Energy Efficient Virtual Machines Placement |
B A B C D E F G I J K L M N P R S T W Y Z |
Badawy, Ghada |
StICT.1.4 |
20 |
ALTM: Adaptive learning-based thermal model for temperature predictions in data centers |
Baucas, Marc Jayson |
StICT.1.3 |
14 |
A Testbed for Adaptive Microphones in Ultra-Low-Power Systems |
Bawayan, Haneen |
StICT.1.1 |
1 |
PMU Placement for Maximal Power System Observability Using Topology Transformation |
Bayati, Abdolkhalegh |
StICT.3.2 |
56 |
Greening The Network Using Traffic Prediction and Link Rate Adaptation |
StICT.3.3 |
63 |
Toward Predictive Handover Mechanism in Software-Defined Enterprise Wi-Fi Networks |
C A B C D E F G I J K L M N P R S T W Y Z |
Chamberland, Steven |
StICT.2.2 |
31 |
A new routing metric for real-time applications in smart cities |
Chen, Yu |
StICT.2.4 |
43 |
PReS: Power Peak Reduction by Real-time Scheduling for Urban Railway Transit |
Cheriet, Mohamed |
StICT.1.2 |
8 |
Environmental Assessment of Fluctuating Residential Electricity Demand |
StICT.2.1 |
26 |
Considering the temporal variability of power generation in the assessment of ICT emissions |
StICT.3.2 |
56 |
Greening The Network Using Traffic Prediction and Link Rate Adaptation |
StICT.3.3 |
63 |
Toward Predictive Handover Mechanism in Software-Defined Enterprise Wi-Fi Networks |
D A B C D E F G I J K L M N P R S T W Y Z |
Dandres, Thomas |
StICT.1.2 |
8 |
Environmental Assessment of Fluctuating Residential Electricity Demand |
StICT.2.1 |
26 |
Considering the temporal variability of power generation in the assessment of ICT emissions |
Despins, Charles |
StICT.3.3 |
63 |
Toward Predictive Handover Mechanism in Software-Defined Enterprise Wi-Fi Networks |
Down, Douglas |
StICT.1.4 |
20 |
ALTM: Adaptive learning-based thermal model for temperature predictions in data centers |
E A B C D E F G I J K L M N P R S T W Y Z |
El garoui, Lamia |
StICT.2.2 |
31 |
A new routing metric for real-time applications in smart cities |
El-Gorashi, Taisir |
StICT.3.1 |
49 |
The Impact of Inter-Virtual Machine Traffic on Energy Efficient Virtual Machines Placement |
Elmirghani, Jaafar |
StICT.3.1 |
49 |
The Impact of Inter-Virtual Machine Traffic on Energy Efficient Virtual Machines Placement |
F A B C D E F G I J K L M N P R S T W Y Z |
Fallis, Evan |
StICT.1.3 |
14 |
A Testbed for Adaptive Microphones in Ultra-Low-Power Systems |
G A B C D E F G I J K L M N P R S T W Y Z |
Gregori, Stefano |
StICT.1.3 |
14 |
A Testbed for Adaptive Microphones in Ultra-Low-Power Systems |
StICT.2.3 |
37 |
Energy Efficient Bike-Share Tracking System with BLE Beacons and LoRa Technology |
I A B C D E F G I J K L M N P R S T W Y Z |
Idzikowski, Filip |
StICT.3.4 |
69 |
Power Consumption and Delay in Wired Parts of Fog Computing Networks |
J A B C D E F G I J K L M N P R S T W Y Z |
James, Matthew |
StICT.1.3 |
14 |
A Testbed for Adaptive Microphones in Ultra-Low-Power Systems |
K A B C D E F G I J K L M N P R S T W Y Z |
Kopras, Bartosz |
StICT.3.4 |
69 |
Power Consumption and Delay in Wired Parts of Fog Computing Networks |
Kryszkiewicz, Pawel |
StICT.3.4 |
69 |
Power Consumption and Delay in Wired Parts of Fog Computing Networks |
L A B C D E F G I J K L M N P R S T W Y Z |
Lawey, Ahmed |
StICT.3.1 |
49 |
The Impact of Inter-Virtual Machine Traffic on Energy Efficient Virtual Machines Placement |
Lipski, Mark |
StICT.1.3 |
14 |
A Testbed for Adaptive Microphones in Ultra-Low-Power Systems |
M A B C D E F G I J K L M N P R S T W Y Z |
Mackey, Andrew |
StICT.1.3 |
14 |
A Testbed for Adaptive Microphones in Ultra-Low-Power Systems |
StICT.2.3 |
37 |
Energy Efficient Bike-Share Tracking System with BLE Beacons and LoRa Technology |
Martínez García, Fernando |
StICT.1.4 |
20 |
ALTM: Adaptive learning-based thermal model for temperature predictions in data centers |
Merveille, Nicolas |
StICT.1.2 |
8 |
Environmental Assessment of Fluctuating Residential Electricity Demand |
Mirhoseininejad, Seyedmorteza |
StICT.1.4 |
20 |
ALTM: Adaptive learning-based thermal model for temperature predictions in data centers |
N A B C D E F G I J K L M N P R S T W Y Z |
Nguyen, Kim Khoa |
StICT.3.2 |
56 |
Greening The Network Using Traffic Prediction and Link Rate Adaptation |
StICT.3.3 |
63 |
Toward Predictive Handover Mechanism in Software-Defined Enterprise Wi-Fi Networks |
P A B C D E F G I J K L M N P R S T W Y Z |
Pierre, Samuel |
StICT.2.2 |
31 |
A new routing metric for real-time applications in smart cities |
R A B C D E F G I J K L M N P R S T W Y Z |
Riekstin, Ana Carolina |
StICT.2.1 |
26 |
Considering the temporal variability of power generation in the assessment of ICT emissions |
S A B C D E F G I J K L M N P R S T W Y Z |
Samson, Réjean |
StICT.1.2 |
8 |
Environmental Assessment of Fluctuating Residential Electricity Demand |
Spachos, Petros |
StICT.1.3 |
14 |
A Testbed for Adaptive Microphones in Ultra-Low-Power Systems |
StICT.2.3 |
37 |
Energy Efficient Bike-Share Tracking System with BLE Beacons and LoRa Technology |
T A B C D E F G I J K L M N P R S T W Y Z |
Tong, Shiqiong |
StICT.2.4 |
43 |
PReS: Power Peak Reduction by Real-time Scheduling for Urban Railway Transit |
W A B C D E F G I J K L M N P R S T W Y Z |
Walzberg, Julien |
StICT.1.2 |
8 |
Environmental Assessment of Fluctuating Residential Electricity Demand |
Y A B C D E F G I J K L M N P R S T W Y Z |
Yang, Zekun |
StICT.2.4 |
43 |
PReS: Power Peak Reduction by Real-time Scheduling for Urban Railway Transit |
Younis, Mohamed |
StICT.1.1 |
1 |
PMU Placement for Maximal Power System Observability Using Topology Transformation |
Z A B C D E F G I J K L M N P R S T W Y Z |
Zhou, Ning |
StICT.2.4 |
43 |
PReS: Power Peak Reduction by Real-time Scheduling for Urban Railway Transit |