IOT560 Packet Tracer and IoT Development Tasks – Assessment 2

Subject Code: IOT560

Subject Name: IOT560 Internet of Things

Task

This assignment is comprised of two tasks. The tasks are outlined below.

Task One

You have just joined as an IoT Developer at HomeSpun IoT. The first project you have been tasked with is to setup of a demo IoT House for your immediate department head with a remote link to the company Office. The project is divided into 2 parts:

  • Create a Smart Home with the criteria and devices given.
  • Control these smart devices from the Office which is in the same city

The Smart Home includes, but is not limited to the following smart devices:

  • Ceiling Fan
  • 2x Lamps
  • Siren
  • Front Door Lock
  • Motion Detector
  • Web Camera
  • Smoke Detector
  • Thermostat
  • Furnace
  • Air Conditioner (AC)
  • Portable Music Player
  • Bluetooth Speaker

These devices are linked to a Wireless Router, which is linked via an Ethernet cable to a Cable Modem. The modem is connected to the Internet via an ISP known as TPH. All the devices are registered on a Remote Server which can be controlled locally by a Tablet that is also connected to the wireless network. The Remote Server is connected to the Company’s Cloud Cluster service (run by Net Servers), as well as an external server that the Smart Home uses for media streaming.

Ensure that you add all necessary screenshots with the documentation as well as the packet tracer file to be presented to the manager for project approval.

Build and configure the Smart Home. (Refer to the file on the Student Resources named Assignment_2_Help). Save the file as StudentID_Firstname_ITC560.pkt (using your own student ID and first name). A template exists in the Cisco Network Academy IoT Course.

All screenshots for each step with a brief explanation must be included in the document. Once the Assignment is complete, the student must embed the packet tracer file as an object in the word document as StudentID_Firstname_ITC560.pkt

Part A

The home is connected to the Internet Service Provider using a Cable Modem. Once that is in place, Add, connect, enable and configure the registration server, tablet and wireless router for the House. The network must implement secure protocols and techniques. You should define a suitable addressing scheme and ensure that your devices get addresses via DHCP where appropriate.

All the devices for the Home as outlined above should be represented in this environment.

Create a DNS name server to resolve the names of the devices in this environment. Use DNS wwwFirstName.com (where FirstName is your own first name) to access the connected devices.

Part B

Add the Office in the same city. Either move the same tablet to the Office or use your smart phone and connect to the Office server. You can use any connecting and intermediary devices of your choice. Log on to the web browser on your tablet/smart phone and manage the devices.

Use your tablet/smart phone to:

  • Turn on the Siren
  • Lock the door
  • Dim one lamp
  • Brighten the other lamp
  • Turn on the furnace
  • Turn on the ceiling fan

Part C

For the final part of this task, embed the following logic in the main office.

  • When the motion detector, detects motion, play music on the Bluetooth Speaker.
  • When the temperature increases, turn on the Air Conditioner, when it is too cold, turn on the furnace (make sure appropriate levels are used).
  • When the motion detector is trigger, sound the siren, take pictures with the WebCam and Lock the Door.

You must demonstrate the operation of each of these criteria.

Task Two

You are given the task of implementing an IoT service by gathering real world data from actual IoT sensors. This scenario will be explained further in your tutorial tasks.

You have recently been appointed to the Beurea of Meteorology (BOM).

You have been asked to write a piece of software using Python to gather data from the Evens Head IOT sensor. The BOM makes all data available via a standardized web interface. In the case of the Evans Head sensor, this data can be found at http://www.bom.gov.au/fwo/IDN60701/IDN60701.94598.json

The data returned through this API represents the last three days of sensor data, collected at appropriate intervals by the BOM Fog environment.

Your job is to review how the BOM gathers and presents this data at http://www.bom.gov.au/catalogue/data-feeds.shtml#xml

You will be mostly interested in understanding the data gathered from individual stations. Once you have done this you are to perform the following tasks.

Part A

Install a Linux environment on your workstation, using a suitable hypervisor e.g. VirtualBox. Be sure to install the Apache Web Server and the Python programming language. If you prefer you can build this server on any Cloud computing environment such as AWS.

Part B

Write a Python Script which uses the Python Requests and JSON module to download the JSON object outlined before. The program MUST process the 3 days of data from this stream and report:

  • the maximum, minimum and average pressure
  • the maximum, minimum and average wind speed

Part C

Modify your Python Program so that it produces a simple web page as its output. Once that is done, place the script in the CGI-BIN directory so that when it is accessed, it provides the user with a web page containing the above information.

The tutorial tasks over the semester will provide you with sufficient insight to complete these tasks.

When completed, you must prepare a document with screen shots outlining the process you have taken to implement the above. You must include a copy of the script used in Part 2 and you must demonstrate your program working.

Rationale

This assessment task will assess the following learning outcome/s:

be able to explain and demonstrate various components of Internet of Things (IoT).

be able to analyse the role and importance of IoT in the modern world.

be able to investigate and propose various requirements of IoT for real world applications.

Presentation

Your assessment should be submitted as an MS Word document (with embedded Packet Tracer file). Do not submit your assignment in any other format and also do not submit multiple copies of the assessment. Use A4 page size with Times New Roman/Arial/Calibri font and use font size 11 or 12. Please include a title, your student ID and name with your submission. Your name should also be included as a footnote, with page numbers in your document.

All textual elements within an assessment must be submitted in a format that is readable by Turnitin. Specific exceptions, where an assessment requires the insertion of image based evidence of workings will be outlined in the context of the

assessment. Students that deliberately attempt to insert content of assessments in a format that is not readable by Turnitin may be subject to Academic Misconduct investigations.

References

You MUST use the CSU APA referencing style for all cited material you have used in your work (with in-text citations). You must use primary sources (ie Wikipedia is not acceptable, something you thought up yourself, because you think you know better, is also unacceptable – unless it has been published and peer reviewed, but then it would still need to be cited). All answers must be written in your own words. Copying sections of text from other sources, even if referenced, is plagiarism and is considered Academic Misconduct.

Requirements

To complete this assessment item, you need to complete the Introduction to Packet Tracer course on http://netacad.com

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