Abstract is missing.
- Keynote speech 1: Edge computing in context - Research and engineering challengesSchahram Dustdar. 1 [doi]
- Keynote speech 2: City of Barcelona's deployment of fog computing for improved citizen and city servicesDavid Carrera. 2 [doi]
- Keynote speech 3: Intel Optane™ technology as differentiator for Internet of everything and fog computingEtienne Elie. 3 [doi]
- Keynote speech 4: Blockchain based systems and edge computing working together as a decentralized public ledgerGary Spence. 4 [doi]
- Intelligent systems for multimedia delivery in software defined networksJaime Lloret. 5-6 [doi]
- Cache-based side-channel attacks detection through Intel Cache Monitoring Technology and Hardware Performance CountersMohammad-Mahdi Bazm, Thibaut Sautereau, Marc Lacoste, Mario Südholt, Jean-Marc Menaud. 7-12 [doi]
- On the development of IoT systemsAntero Taivalsaari, Tommi Mikkonen. 13-19 [doi]
- NeiMEC: Automatically building neighbor relationship between mobile edge platforms in multi-access edge computing environmentYen-Chiu Chen, Chun-Chieh Wang, Jian-Cheng Chen. 20-25 [doi]
- Simulation and performance evaluation of a fog systemTychalas Dimitrios, Karatza Helen. 26-33 [doi]
- Formal definition of edge computing: An emphasis on mobile cloud and IoT compositionCharif Mahmoudi, Fabrice Mourlin, Abdella Battou. 34-42 [doi]
- A novel pflua-based OpenFlow implementation for VOSYSwitchJeremy Fanguede, Michele Paolino, Dimitar Dimitrov, Daniel Raho. 43-49 [doi]
- OpenStack extensions for QoS and energy efficiency in edge computingAlessandro Carrega, Matteo Repetto, Giorgio Robino, Giancarlo Portomauro. 50-57 [doi]
- A framework for efficient and secured mobility of IoT devices in mobile edge computingSufyan Almajali, Haythem Bany Salameh, Moussa Ayyash, Hany Elgala. 58-62 [doi]
- An architecture pattern for trusted orchestration in IoT edge cloudsClaus Pahl, Nabil El Ioini, Sven Helmer, Brian Lee. 63-70 [doi]
- SUMMON: Gathering smart city data to support IoT-Fog-Cloud simulationsTamas Pflanzner, K. Zs. Leszko, Attila Kertész. 71-78 [doi]
- Bonsai in the Fog: An active learning lab with Fog computingAntonio Brogi, Stefano Forti 0002, Ahmad Ibrahim 0001, Luca Rinaldi. 79-86 [doi]
- Virtualization at the network edge: A technology perspectiveSyed Rameez Ullah Kakakhel, Lauri Mukkala, Tomi Westerlund, Juha Plosila. 87-92 [doi]
- The "Droplet": A new personal device to enable fog computingOmar A. Nasr, Yasser Amer, Mohammed AboBakr. 93-99 [doi]
- Optimized load balancing by dynamic BBU-RRH mapping in C-RAN architectureErminio Augusto Ramos da Paixao, Rafael Fogarolli Vieira, Welton Vasconcelos Araujo, Diego Lisboa Cardoso. 100-104 [doi]
- Exploiting user provided information in dynamic consolidation of virtual machines to minimize energy consumption of cloud data centersMd Anit Khan, Andrew P. Paplinski, Abdul Malik Khan, M. Manzur Murshed, Rajkumar Buyya. 105-114 [doi]
- Comparing centrality indices for network usage optimization of data placement policies in fog devicesIsaac Lera, Carlos Guerrero, Carlos Juiz. 115-122 [doi]
- A game-theoretic approach to coalition formation in fog provider federationsCosimo Anglano, Massimo Canonico, Paolo Castagno, Marco Guazzone, Matteo Sereno. 123-130 [doi]
- An efficient implementation of next generation access control for the mobile health cloudRejina Basnet, Subhojeet Mukherjee, Vignesh M. Pagadala, Indrakshi Ray. 131-138 [doi]
- Practical personalized genomics in the encrypted domainKalpana Singh, Renaud Sirdey, Sergiu Carpov. 139-146 [doi]
- Dynamic application deployment in federations of clouds and edge resources using a multiobjective optimization AI algorithmRam Govinda Aryal, Jörn Altmann. 147-154 [doi]
- On wearable devices for motivating patients with upper limb disability via gaming and home rehabilitationAli Al-Mahmood, Michael Opoku Agyeman. 155-162 [doi]
- Security review on the Internet of ThingsJack Whitter-Jones. 163-168 [doi]
- Embedding web apps in mixed realityAntti Peuhkurinen, Tommi Mikkonen. 169-174 [doi]
- An IoT-based smart pillow for sleep quality monitoring in AAL environmentsAlejandro Veiga, Laura García, Lorena Parra, Jaime Lloret, Vivian Augele. 175-180 [doi]
- Real-time optimized HVAC control system on top of an IoT frameworkRajith Anjali, Soki Sakurai, Hiroshi Mine. 181-186 [doi]
- Dynamic QoS support for IoT backhaul networks through SDNStefanos Peros, Hassaan Janjua, Sven Akkermans, Wouter Joosen, Danny Hughes 0001. 187-192 [doi]
- LoRaWan capacity simulation and field test in a harbour environmentAlexander Victor Tietgen Bardram, Mikkel Delbo Larsen, Krzysztof Mateusz Malarski, Martin Nordal Petersen, Sarah Ruepp. 193-198 [doi]
- Experimental evaluation of power distribution to reactive loads in a network-controlled delivery gridZhengqi Jiang, Haard Shah, Roberto Rojas-Cessa, Haim Grebel, Ahmed A. Mohamed. 199-204 [doi]
- A digital approach to energy networks: Allocation and distribution of energy requestsCamila Fukuda, Henrique Pita, Haim Grebel, Roberto Rojas-Cessa, Ahmed A. Mohamed. 205-210 [doi]
- A hybrid-based 3D streaming framework for mobile devices over IoT environmentsMohammad Al Ja'afreh, Moayad Aloqaily, Ismaeel Al Ridhawi, Nour Mostafa. 211-216 [doi]
- Detection and prevention of Black Hole Attacks in IOT & WSNShoukat Ali, Muazzam A. Khan, Jawad Ahmad, Asad W. Malik, Anis-ur-Rehman. 217-226 [doi]
- A simulation study of a smart living IoT solution for remote elderly careDavid Perez, Suejb Memeti, Sabri Pllana. 227-232 [doi]
- Node localization for indoor tracking using artificial neural networkRiya Samanta, Chandni Kumari, Novarun Deb, Sagar Bose, Agostino Cortesi, Nabendu Chaki. 229-233 [doi]
- Law and IoT: How to see things clearly in the FogSzilvia Varadi, G. Gultekin Varkonyi, Attila Kertész. 233-238 [doi]
- Energy-aware data collection from the Internet of Things for building emotional profilesMartin G. Salido Ortega, Luis-Felipe Rodríguez, J. Octavio Gutiérrez-García. 234-239 [doi]
- Augmenting the industrial Internet of Things with EmojisAndreas Seitz, Dominic Henze, Jochen Nickles, Markus Sauer, Bernd Bruegge. 240-245 [doi]
- Energy efficient Dijkstra-based weighted sum minimization routing protocol for WSNMadiha Razzaq, Goo-Rak Kwon, Seokjoo Shin. 246-251 [doi]
- A mapping study on living labs: Characteristics, smart cities initiatives, challenges and software architecture aspectsTassio Vale, Eliazar Carvalho, Marcio Souza, Pedro O. Raimundo, Igor Faria, Rodrigo O. Spinola, Frank Elberzhager. 252-257 [doi]
- A smart city adaptive lighting systemGianfranco Gagliardi, Alessandro Casavola, Marco Lupia, Gianni Cario, Francesco Tedesco, Fabrizio Lo Scudo, Francesco Cicchello Gaccio, Antonio Augimeri. 258-263 [doi]
- A retrofitting auction service business model proposal within a smart city contextPedro Torrinha, Carlos E. Salgado, Ricardo J. Machado. 264-271 [doi]
- Fog resource selection using historical executionsNour Mostafa, Ismaeel Al Ridhawi, Moayad Aloqaily. 272-276 [doi]
- Towards smart buildings performance testing as a serviceElena Markoska, Sanja Lazarova-Molnar. 277-282 [doi]
- Artificial intelligence framework for smart city microgrids: State of the art, challenges, and opportunitiesShahzad Khan, Devashish Paul, Parham Momtahan, Moayad Aloqaily. 283-288 [doi]
- Automatic detection for online games bot with APPChin-Ling Chen, Chang-Cheng Ku, Yong-Yuan Deng, Woei-Jiunn Tsaur. 289-294 [doi]
- Power consumption experimental analysis in smart phonesEsraa Ahmadoh, Lo'ai Ali Tawalbeh. 295-299 [doi]
- Feasibility study and requirements for mobile cloud healthcare systems in Saudi ArabiaSuhaila Habeeb, Lo'ai Ali Tawalbeh. 300-304 [doi]