IoT

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college The Internet of Things Flashcards on IoT, created by wave.mose on 26/05/2016.
wave.mose
Flashcards by wave.mose, updated more than 1 year ago
wave.mose
Created by wave.mose over 8 years ago
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Resource summary

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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