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information technology assignment 1 unit internet of things

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Tiêu đề Internet of Things
Tác giả Phan Lam Quoc Viet
Người hướng dẫn Truong Dang Hieu
Trường học BTEC FPT International College
Chuyên ngành Information Technology
Thể loại Assignment
Năm xuất bản 2022
Thành phố Da Nang
Định dạng
Số trang 37
Dung lượng 1,05 MB

Nội dung

Figure 1.1-2: Smart city and Self-car using IoT2000''''s early years, the inventor of the term "Internet of Things," Kevin Ashton, thought Radio Frequency Identification RFID was a requirem

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STUDENT : PHAN LAM QUOC VIET CLASS : IT16101

STUDENT ID : BDAF200035 SUPERVISOR : TRUONG DANG HIEU

Da Nang, November 2022

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ASSIGNMENT 1 FRONT SHEET

Submission date 4/11/2022 Date received (1st

submission)

Re-submission date Date received (2nd

submission)

Student declaration:

I certify that the assignment submission is entirely my own work and I fully understand the consequences of plagiarism I understand that making a false declaration is a form of malpractice.Student’s signature:

Quoc Viet

Grading grid:

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❒Summative Feedbacks: Resubmission Feedbacks:❒

Grade: Assessor Signature: Date:Internal Verifier’s Comments:

Signature & Date:

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TABLE OF CONTENT

INSTRUCTOR/ SUPERVISOR/ ASSESSOR………

REVIEWERS………

TABLE OF CONTENT ………

LIST OF TABLES AND FIGURES ………

LIST OF ACRONYM………

INTRODUCTION………

CRITICAL EVALUATION………

CONCLUSION ………

REFERENCES………

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LIST OF TABLES AND FIGURES

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LIST OF THE ACRONYM

ACL Access Control List

OEM Original equipment manufacturer

ISV independent software vendor

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In our present position as product developers at young start up, we create IoT solutions for clients in the consumer, business, government, and defence sectors Our boss has given us the responsibility to plan and create a new IoT service, application, or product for a possible client as part of our employment We must choose a target user, test our product on this person, and incorporate their comments into several iterative revisions

In the first section, we'll plan an Internet of Things application for a particular target end user and the tests you want to run on this user This strategy will be presented as a written document with supplementary information and materials, such as user personas and customer path maps Make several versions of your program, and then alter each iteration with

improvements gleaned through experimentation and user feedback Let’s find out in this assignment!

CHAPTER 1: IOT APPLICATION PLANNING & DEVELOPMENT

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CHAPTER 1: IOT APPLICATION PLANNING & DEVELOPMENT1.1 Explore various forms of IoT functionality on electronic platform (P1)

1.1.1 What is IOT?

Over the past several years, the phrase "Internet of Things" (IoT) has become one of the most well-known "technology buzz" terms Due to its quick expansion, IoT is a hot topic in technology conversations in today's globe The IoT can be defined in a variety of ways

IoT is defined as a method of connectivity using internet-connected devices that may be implanted to give commonplace items functionality by enabling them to transmit and receive data.Today, data permeates every aspect of our lives As a result, IoT may also be described as the analysis of data that results in a meaningful action that is initiated following data exchange

Figure: 1.1-1: Internet of Things1.1.2 History of IOT

As a part of DARPA (Defence Advanced Research Projects Agency), the internet was first developed in 1962 It then changed its name to ARPANET (Advanced Research Projects Agency Network) in 1969

Commercial service providers started enabling public usage of ARPANET in the 1980s, which helped it develop into our current Internet For much of the IoT, fundamental

communications are provided through satellites and landlines

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Early in 1993, the Department of Defence delivered a reliable, highly effective system of 24 satellites, making the Global Positioning System (GPS) a reality Soon after, privately owned, commercial satellites were sent into orbit, further enhancing the functionality of the IIoT.

An early 1980s Coca-Cola machine at Carnegie Mellon University was one of the first examples of the Internet of Things, but the term itself wasn't used until 1999 Before making the journey to get a drink, local programmers would connect over the Internet to the refrigerator and check to see whether there was one available and if it was cold

The term "Internet of Things" was first used by Kevin Ashton, the Executive Director of MIT's Auto-ID Labs, in 1999 Although he was the first to explain the Internet of Things in a presentation for Procter & Gamble, the concept has since changed

Figure 1.1-2: Smart city and Self-car using IoT2000's early years, the inventor of the term "Internet of Things," Kevin Ashton, thought Radio Frequency Identification (RFID) was a requirement for the Internet of Things He came to theconclusion that computers could manage, track, and inventory all gadgets provided they were

"tagged."

Walmart and the US Department of Defence were the first big companies to adopt Ashton'ssystem for monitoring inventories utilizing barcodes, RFID technology, and the Internet of Things in2002-2003

The Swiss Federal Office of Energy launched the "Smart City Switzerland" pilot initiative in

2012 To debate fresh concepts for the urban environment, they gathered individuals from academia, industry, and government With more than 60 active initiatives, Smart City Switzerland encourages new collaborations and innovation in science

By 2013, the Internet of Things (IoT) had developed into a system utilizing a number of technologies, including wireless communication, embedded systems, micro-electromechanical

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systems (MEMS), and the Internet They entered the IoT in 2015 with a lot of marketing zeal Marketing teams keep an eye on the sensors in these gadgets and send out promos based on the customer and the product's location.

The very first self-driving car debuted May Mobility started a pilot program in October

2021 to test its self-driving software

1.1.3 Characteristics of IOT

Connectivity

An essential component of the IoT architecture is connectivity The IoT infrastructure should be connected to IoT objects This should always be guaranteed to be possible for everyone, everywhere, at any time

For instance, connections between individuals via internet-connected devices like smartphones and other gadgets, as well as connections between individual Internet-connected objects like routers, gateways, sensors, etc

Identity and intelligence

It is crucial to extract knowledge from the produced data For instance, a sensor could produce data, but that information won't be helpful until it is correctly evaluated IoT devices each have an own identity

The equipment may sometimes be tracked using this identity, and its condition can occasionally be inquired

Architecture

IoT architecture can't be uniform in design It must be hybrid and able to work with items from various manufacturers in the IoT network

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No engineering branch owns the Internet of Things When several disciplines join together,IoT becomes a reality.

Security

There are an increasing number of gadgets and appliances that are connected to the internet as a result of the Internet of Things, which is expanding exponentially Additionally, there are an increasing number of cyber-attacks on these gadgets and appliances, thus it's critical to consider security while creating a good or service

The concept behind the internet of things is that everything around us will be wired into the network, making life simpler for everyone With this new technology, there are several hazards

as well, though It is crucial to take action to safeguard your personal information in order to avoid these threats and stay safe and secure

Because personal information may be gathered and shared without permission, data privacy is a major problem with the internet of things Other difficulties include those related to hacking, data ownership, and privacy

1.1.4 Why use IOT?

Organizations may get a number of advantages from the internet of things Some advantages are exclusive to certain businesses, while others apply to many other industries The following are some typical advantages of IoT for businesses:

Monitor their whole company operations,

promote staff productivity,

enhance customer experience

save time and money

integrate and adapt business models

Make better business choices

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IoT can also assist with the capacity to monitor infrastructure-related processes For instance, sensors might be used to track developments or changes in the structural elements of buildings, bridges, and other infrastructure Benefits associated with this include cost savings, time savings, changes to the workflow's quality of life, and paperless workflow.

IoT may be used by a home automation company to control and monitor a building's electrical and mechanical systems On a larger scale, smart cities may assist residents in using less garbage and energy

Every industry, including those in healthcare, banking, retail, and manufacturing, is impacted by IoT

1.1.5 Application of IOT

Smart Healthcare

The healthcare sector has been harnessing the potential of the Internet of Things for applications that might save lives The whole system of patient care may be enhanced with the deployment of IoT, from gathering crucial data from bedside devices to real-time diagnostic processes, accessing medical records and patient information across many departments

Figure 1.1-3: Smart HealthcareIoT will be convenient for medical professionals, enhance information accuracy (helping to eliminate data inaccuracy), boost overall efficiency, and shorten process times

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Smart IoT devices allow for continuous patient monitoring A patient's immediate vital changes will instantly alert the appropriate medical professionals in real-time Doctors can remotely check on patients' conditions and recommend appropriate surgeries as needed.

With the aid of intelligent IoT devices, doctors may remotely evaluate patients and remotely administer medication Hospital visits may not always be necessary For instance, many hospitals now provide telemedicine services Patients can use video conferencing to continue their treatment

In addition to improving the effectiveness and cost-effectiveness of healthcare systems, IoT increases patient pleasure The use of IoT in healthcare will improve the whole hospital

experience

Autonomous Driving

Artificial intelligence and the Internet of Things' smart sensor technology have helped autonomous driving advance Early autonomous vehicle generation (partial automation) will help drivers drive safely, prevent crashes, and issue warnings about the state of the road and the

vehicle

Figure 1.1-4: Autonomous DrivingExamples include help with cruise control, parking, line-changing, and effective fuel/energy management, among others

Using the Internet of Things and artificial intelligence, self-driving cars and linked car concepts will provide a significantly safer driving experience in the future (AI) The system uses cameras, proximity sensors, RADARs, and RF antenna arrays to gather data and support the

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vehicle's decision-making in response to abrupt changes in the route Using RF technology, vehiclesand intelligent objects may communicate and exchange information.

Examples of such situations include ice on the road, a car accident or breakdown on a single line, and heavy traffic on a highway in a certain direction

Agriculture and Smart farming

To produce more foods and vegetables to feed the growing world population, agriculture and farming face several difficulties The Internet of Things can help farmers and academics in this field discover more efficient and affordable ways to boost output

Young people in industrialized nations are not drawn to traditional farming and agriculture Authorities must come up with alternate solutions to this problem since a lack of support personnel might affect production

One of the potential approaches to increasing overall agricultural and farming industry efficiency while using fewer personnel is the Internet of Things Each stage of agriculture will be improved by smart sensor technology, and automation lessens the need for physical labour

Figure 1.1-5: Agriculture and Smart farmingSmart Disaster management

Engineers can create a more effective emergency response system for industries, schools, hospitals, airports, and other public gathering areas thanks to the Internet of Things and its vast spectrum of smart sensors Sensors will automatically identify any emergency scenarios, such as a fire breakout or floods, and will immediately transmit this information with the relevant task groups

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An alert on the situation will be sent to the local hospitals, police, ambulance units, and firedepartment during an emergency An automated warning system enhances readiness and enables authorities to rapidly plan and respond to any crisis.

Smoke detectors, temperature sensors, humidity sensors, CO2 monitoring sensors, and precipitation detectors are a few examples of popular sensors

Continuous monitoring of CO2 emission levels, fire, and smoke is being done using sensors that have been placed in numerous sites (where there is a higher chance of wildfire occurring)

These sophisticated sensors are linked to a network, enabling rapid detection of any data changes and the transmission of alert notifications in the event of a wildfire

Figure 1.1-5: Smart Disaster managementSmart Home and Office

Applications for smart sensors in the home are growing in popularity right now Any smart device may be set up, connected to the internet, and controlled by a straightforward smartphone app

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Figure 1.1-6: Smart Home and OfficeOne of the most common and economical Internet of Things solutions is smart locks and door entry systems Using a web interface or smartphone app, smart locks are simple to set up anduse One appealing internet of things application for the smart home is smart lighting It not only helps us manage efficiently but also saves energy Smart hub devices and smartphone apps may beused to adjust the lighting environment.

Gates and garages can be easily controlled (operated) using smart sensor technologies and the internet of things You may use a mobile device to open or close the gate whenever you are going to enter the house or once you have left the property

Smart sensors placed on the parking area are gathering data on parking space availability and real-time updating the database It will immediately be updated after the space is filled

We can effectively control this problem thanks to the Internet of Things and smart sensor technologies Authorities will be able to estimate the quantity of garbage produced in a certain region, how to process effectively, initiate the clearing of waste, and evaluate data for future planning, among other things, with the help of a smart waste management system

1.2 Review standard architecture, frameworks, tools, hardware and APIs available for use in IoT development (P2)

1.2.1 Architecture of IOT

There are many uses for Internet of Things (IoT) technology, and its use is accelerating quickly The Internet of Things functions as it was intended or created to in accordance with the many application areas for which it has been used However, it lacks a widely adhered-to standard defined architecture of working The functioning and application of IoT in various domains determine its architecture However, there is a fundamental process flow upon which IoT is founded

We'll talk about the IoT's four-stage basic architecture, which includes the sensing layer, network layer, data processing layer, and application layer

+ Sensing Layer/Perception Layer: This layer contains sensors, actuators, and devices Thesesensors and actuators receive data (physical and environmental factors), process it, and then transmit it across a network

+ Network layer: Data acquisition systems (DAS) and Internet/Network gateways are present Data aggregation and conversion tasks are carried out by DAS Advanced gateways, which

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primarily link Sensor networks to the Internet, also carry out a number of fundamental gateway functions, such as virus protection, filtering, and occasionally making decisions based on inputted data and data management services

Figure 1.2-1: Architecture of IOT+ Data processing Layer: This is the IoT ecosystem's processing layer Prior to being sent to the data center, where it is accessible by software programs commonly referred to as business applications, the data is examined, pre-processed, and ready for further action

+ Application Layer: The last layer of the IoT architecture's four tiers The management of data occurs in data centers or the cloud, where it is used by end-user applications for things like agriculture, healthcare, aerospace, farming, and military

1.2.2 Frameworks of IOT

The Internet of Things (IoT) Framework may be thought of as an ecosystem made up of several linked devices that interact with one another online These Internet-connected gadgets often function to send and detect data while requiring very little human involvement

The Internet of Things (IoT) architecture enables seamless communication between linked devices Therefore, it should come as no surprise that it is known as the "Internet of Things"

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framework, the framework that makes it possible for objects to communicate with one another through the Internet With applications in practically every industry, the Internet of Things

framework is a crucial component of technology in the present world For instance, the design of smart houses is one of the IoT's key applications

Figure 1.2-2: IoT FrameworkArduino:

If you want to possess a computer that can observe the world and exert powerful control over

it, Arduino is one of the most highly recommended open-source Internet of Things frameworks.The IoT hardware and software components are included in the Arduino open source, which makes it highly straightforward and user-friendly Several hardware requirements that are frequently used by interactive electronics help the Arduino open-source work more efficiently

Figure 1.2-3: ArduinoFlutter

A processing core that may be readily designed for many electronic tasks is the Flutter open-source framework Students and engineers love this open-source Internet of Things framework because it can be customized

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