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| Question | Answer |
| IoT provides networking to connect | people, things, applications, and data through the Internet |
| IoT provides networking to enable | remote control, management, and interactive integrated services |
| Some advanced IoT services will need to collect ________ and ________ segments of________ _________ ________ and turn it into operational __________ ________ | analyze, process, raw sensor data, control information |
| Some sensor data types may have massive sizes due to _________ __________ of ________ _____________. | large numbers of IoT devices |
| IoT databases will need ________Computing support | cloud |
| IoT data analysis will need ________support | Big Data |
| Influence of IoT include | people process data things |
| IoT influence of people includes more t_________ can be m_______ and c______ thus people will become more c _______ | ‘things’ , monitored and controlled, capable |
| Influence of IoT of process includes m______ u_______ and m____ can collaborate in r______ t_______ thus more complex t_____ can be accomplished in lesser time. | More users, machines, real- time, thus tasks can be accomplished in lesser time |
| Influence of IoT on Data Collect d______ more f_______ and r______ thus Results are more accurate in d________ making. | data ,frequently and reliably, decision |
| Influence of IoT of Things | ‘Things’ become more controllable thus Mobile devices and ‘things’ become more valuable |
| Economic Impact • Predictions have been made that IoT has the potential to increase global corporate profits by _______ by the year______ | 21% 2022 |
| Economic Impact • M2M (___________) connections are i________ important • P2P (___________) as well as P2M (___________) & M2P (_____________) still represent the majority of IoT’s economic value | (Machine-to-Machine), increasingly • (Person-to-Person) (Person-to-Machine) & (Machine-to-Person) |
| IoT Applications s_______ T_______ H_______ U________ M________ S______&______ F________ M_________ | Security Transportation Healthcare Utilities Manufacturing Supply & Provisioning Facility Management |
| IoT Applications Security S______ a________, a______ real-time object/people t______ and m_______ | Surveillance applications, alarms, tracking, monitoring |
| IoT Applications Transportation Fleet m__________, road s_______, e________ control, t____payment, real-time t_______ m________, and many more ITS (I________T________ S_______) applications | management, safety, emission, toll ,traffic monitoring, (Intelligent Transport Systems) |
| IoT Applications Healthcare E-_______, personal s________, b______-s_______ based customized healthcare systems | E-health, security, body-sensor |
| IoT Architecture Layers should be the very first slide a__________ m_________ g__________ s__________ | application management service gateway network sensors connectivity and network |
| IoT Architecture Layers Sensor Layer Sensors connectivity and Network LAN wifi Ethernet PAN UWB ZigBee Bluetooth 6LoW Wired Sensors/Actuators Solid State Photochemistry Infrared Catalytic GPS Accelerometer Gyroscope photo electric Tag R_____ B_____ | |
| Sensor Layer Made up of s_______ and s_______devices • R_______ information to be c________and p_________ • Sensors use l_____ power and low d_____ rate connectivity • WSN (W_______S________ N_______) formation • Sensors are grouped according to their p_______ and d____ t______ e.g., environmental sensors, military sensors, body sensors, home sensors, surveillance sensors, etc.)  | sensors , smart • Real-time , collected, processed, data (Wireless Sensor Network) formation purpose and data types  |
| Sensor Aggregators (Gateways) • LAN (Local Area Network): Ethernet and Wi-Fi connections • PAN (Personal Area Network): ZigBee, Bluetooth, and 6LowPAN • Sensors which do not require connectivity to a LAN gateway can be directly connected to the Internet through a WAN (Wide Area Network) interface  | Sensor Aggregators (Gateways) • LAN (Local Area Network): Ethernet and Wi-Fi connections • PAN (Personal Area Network): ZigBee, Bluetooth, and 6LowPAN • Sensors which do not require connectivity to a LAN gateway can be directly connected to the Internet through a WAN (Wide Area Network) interface  |
| Gateway & Network Layer  | Gateway & Network Layer  |
| Gateway & Network Layer • Must support massive volumes of IoT data produced by wireless sensors and smart devices • Requires a robust and reliable performance, regarding private, public or hybrid network models • Network models are designed to support the communication QoS requirements for latency, error probability, scalability, bandwidth, security, while achieving high levels of energy efficiency | Gateway & Network Layer • Must support massive volumes of IoT data produced by wireless sensors and smart devices • Requires a robust and reliable performance, regarding private, public or hybrid network models • Network models are designed to support the communication QoS requirements for latency, error probability, scalability, bandwidth, security, while achieving high levels of energy efficiency |
| Gateway & Network Layer • It is important to integrate different types of networks into a single IoT platform • IoT sensors are aggregated with various types of protocols and heterogeneous networks using different technologies • IoT networks need to be scalable to efficiently serve a wide range of services and applications over large scale networks | Gateway & Network Layer • It is important to integrate different types of networks into a single IoT platform • IoT sensors are aggregated with various types of protocols and heterogeneous networks using different technologies • IoT networks need to be scalable to efficiently serve a wide range of services and applications over large scale networks |
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