Development of Smart IoT Network in Packet Tracer - Assessment Item 2
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This report describes the development of a Smart IoT network in Packet Tracer. It includes screenshots of the configurations used at the wireless router and the IoT smart device, as well as the registration server. The report also demonstrates the control of IoT devices from a remote branch office.
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Running head: ASSESSMENT ITEM 2
Assessment Item 2
Name of the Student
Name of the University
Author’s Note
Assessment Item 2
Name of the Student
Name of the University
Author’s Note
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1
ASSESSMENT ITEM 2
Table of Contents
Part 1....................................................................................................................................2
Introduction......................................................................................................................2
1. Development of the Smart IoT network in Packet tracer............................................2
2.......................................................................................................................................3
i. Screenshot IoT Device configuration...........................................................................3
ii. Screenshot of Registration Server Account Creation..................................................5
3. Screenshot of opening Smart IoT devices using tablet................................................7
4. Simple PDU from tablet to server...............................................................................7
Conclusion.......................................................................................................................8
Part 2....................................................................................................................................9
Introduction......................................................................................................................9
Packet Tracer File..............................................................................................................10
Conclusion.....................................................................................................................10
Bibliography......................................................................................................................12
ASSESSMENT ITEM 2
Table of Contents
Part 1....................................................................................................................................2
Introduction......................................................................................................................2
1. Development of the Smart IoT network in Packet tracer............................................2
2.......................................................................................................................................3
i. Screenshot IoT Device configuration...........................................................................3
ii. Screenshot of Registration Server Account Creation..................................................5
3. Screenshot of opening Smart IoT devices using tablet................................................7
4. Simple PDU from tablet to server...............................................................................7
Conclusion.......................................................................................................................8
Part 2....................................................................................................................................9
Introduction......................................................................................................................9
Packet Tracer File..............................................................................................................10
Conclusion.....................................................................................................................10
Bibliography......................................................................................................................12
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ASSESSMENT ITEM 2
Part 1
Introduction
In the part 1 of the report the Smart office network is developed and configured
according to the requirement of the project. The screenshot of the configurations are attached
with the report for the demonstration of the working of the IoT network. The configuration used
at the wireless router and the Iot smart device are shown in the screenshots. For connecting the
IoT devices with the registration server the registration server is configured with the username
and password. After connecting the tablet with the wireless router a new account is created with
proper username and password for the management of the IoT devices.
1. Development of the Smart IoT network in Packet tracer
Figure 1: Screenshot of smart office network
(Source: Created by author)
ASSESSMENT ITEM 2
Part 1
Introduction
In the part 1 of the report the Smart office network is developed and configured
according to the requirement of the project. The screenshot of the configurations are attached
with the report for the demonstration of the working of the IoT network. The configuration used
at the wireless router and the Iot smart device are shown in the screenshots. For connecting the
IoT devices with the registration server the registration server is configured with the username
and password. After connecting the tablet with the wireless router a new account is created with
proper username and password for the management of the IoT devices.
1. Development of the Smart IoT network in Packet tracer
Figure 1: Screenshot of smart office network
(Source: Created by author)
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ASSESSMENT ITEM 2
2.
i. Screenshot IoT Device configuration
ASSESSMENT ITEM 2
2.
i. Screenshot IoT Device configuration
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ASSESSMENT ITEM 2
5
ASSESSMENT ITEM 2
ii. Screenshot of Registration Server Account Creation
ASSESSMENT ITEM 2
ii. Screenshot of Registration Server Account Creation
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ASSESSMENT ITEM 2
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3. Screenshot of opening Smart IoT devices using tablet
4. Simple PDU from tablet to server
ASSESSMENT ITEM 2
3. Screenshot of opening Smart IoT devices using tablet
4. Simple PDU from tablet to server
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Conclusion
From the above screenshot it can be concluded that the network of the office is
configured properly and it meets all the requirement of the company. The network is tested for
identification of the connection between the tablet and the registration server and it is secured
with authentication. For connecting the smart IoT devices wireless interface is used because it
reduces the wiring cost and increases the flexibility of the network. The location of the wireless
access point should be noted such that all the IoT devices comes in its range and able to
communicate with each other.
ASSESSMENT ITEM 2
Conclusion
From the above screenshot it can be concluded that the network of the office is
configured properly and it meets all the requirement of the company. The network is tested for
identification of the connection between the tablet and the registration server and it is secured
with authentication. For connecting the smart IoT devices wireless interface is used because it
reduces the wiring cost and increases the flexibility of the network. The location of the wireless
access point should be noted such that all the IoT devices comes in its range and able to
communicate with each other.
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ASSESSMENT ITEM 2
Part 2
Introduction
For the second part of the report a remote branch office is added to the diagram and it is
connected with the current network of the head office for allowing the IoT devices installed in
the network to be controlled from the remote end. For the configuration of the remote network a
cable modem is used and it is connected with a switch and cloud for connecting with the
company’s main network. A wireless access point is installed in the remote network according to
the requirement for connecting the smart device with the network and allowing the smart device
to connect with the registration server for controlling the IoT devices installed in different
location of the Smart office network.
The screen below are used for demonstration of the IoT devices controlled from the smart
device.
ASSESSMENT ITEM 2
Part 2
Introduction
For the second part of the report a remote branch office is added to the diagram and it is
connected with the current network of the head office for allowing the IoT devices installed in
the network to be controlled from the remote end. For the configuration of the remote network a
cable modem is used and it is connected with a switch and cloud for connecting with the
company’s main network. A wireless access point is installed in the remote network according to
the requirement for connecting the smart device with the network and allowing the smart device
to connect with the registration server for controlling the IoT devices installed in different
location of the Smart office network.
The screen below are used for demonstration of the IoT devices controlled from the smart
device.
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ASSESSMENT ITEM 2
Packet Tracer File
Conclusion
From the above report it can be concluded that with the development of the smart IoT
network some of the operation can be automated. It increases the flexibility of the network by
enabling the devices connected in the network to be managed from any location in the network.
The devices are configured according to the needs of the organization and research has been
made on the IoT device and framework for the development of the network framework. The
network device are configured to connect with the wireless access point and proper
authentication is used for maintaining the security of the network. For testing the connectivity of
the network ICMP packets are sent between the source (tablet/ smart phone) and the destination
ASSESSMENT ITEM 2
Packet Tracer File
Conclusion
From the above report it can be concluded that with the development of the smart IoT
network some of the operation can be automated. It increases the flexibility of the network by
enabling the devices connected in the network to be managed from any location in the network.
The devices are configured according to the needs of the organization and research has been
made on the IoT device and framework for the development of the network framework. The
network device are configured to connect with the wireless access point and proper
authentication is used for maintaining the security of the network. For testing the connectivity of
the network ICMP packets are sent between the source (tablet/ smart phone) and the destination
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ASSESSMENT ITEM 2
(registration server) for reducing the errors in the network and successfully delivering the
project.
ASSESSMENT ITEM 2
(registration server) for reducing the errors in the network and successfully delivering the
project.
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ASSESSMENT ITEM 2
Bibliography
Bhatt, C., Dey, N., & Ashour, A. S. (Eds.). (2017). Internet of things and big data technologies
for next generation healthcare.
Catarinucci, L., De Donno, D., Mainetti, L., Palano, L., Patrono, L., Stefanizzi, M. L., &
Tarricone, L. (2015). An IoT-aware architecture for smart healthcare systems. IEEE
Internet of Things Journal, 2(6), 515-526.
Elloumi, O., Song, J., Ghamri-Doudane, Y., & Leung, V. C. (2015). IoT/M2M from research to
standards: The next steps (part I)[guest editorial]. IEEE communications
Magazine, 53(9), 8-9.
Jalali, R., El-Khatib, K., & McGregor, C. (2015, February). Smart city architecture for
community level services through the internet of things. In Intelligence in Next
Generation Networks (ICIN), 2015 18th International Conference on (pp. 108-113).
IEEE.
Jo, M., Maksymyuk, T., Strykhalyuk, B., & Cho, C. H. (2015). Device-to-device-based
heterogeneous radio access network architecture for mobile cloud computing. IEEE
Wireless Communications, 22(3), 50-58.
Kim, D. Y., & Jung, M. (2017). Data transmission and network architecture in long range low
power sensor networks for IoT. Wireless Personal Communications, 93(1), 119-129.
Klymash, M., Beshley, H., Seliuchenko, M., & Maksymyuk, T. (2017, July). Improving
architecture of LTE mobile network for IoT services provisioning. In Advanced
ASSESSMENT ITEM 2
Bibliography
Bhatt, C., Dey, N., & Ashour, A. S. (Eds.). (2017). Internet of things and big data technologies
for next generation healthcare.
Catarinucci, L., De Donno, D., Mainetti, L., Palano, L., Patrono, L., Stefanizzi, M. L., &
Tarricone, L. (2015). An IoT-aware architecture for smart healthcare systems. IEEE
Internet of Things Journal, 2(6), 515-526.
Elloumi, O., Song, J., Ghamri-Doudane, Y., & Leung, V. C. (2015). IoT/M2M from research to
standards: The next steps (part I)[guest editorial]. IEEE communications
Magazine, 53(9), 8-9.
Jalali, R., El-Khatib, K., & McGregor, C. (2015, February). Smart city architecture for
community level services through the internet of things. In Intelligence in Next
Generation Networks (ICIN), 2015 18th International Conference on (pp. 108-113).
IEEE.
Jo, M., Maksymyuk, T., Strykhalyuk, B., & Cho, C. H. (2015). Device-to-device-based
heterogeneous radio access network architecture for mobile cloud computing. IEEE
Wireless Communications, 22(3), 50-58.
Kim, D. Y., & Jung, M. (2017). Data transmission and network architecture in long range low
power sensor networks for IoT. Wireless Personal Communications, 93(1), 119-129.
Klymash, M., Beshley, H., Seliuchenko, M., & Maksymyuk, T. (2017, July). Improving
architecture of LTE mobile network for IoT services provisioning. In Advanced
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13
ASSESSMENT ITEM 2
Information and Communication Technologies (AICT), 2017 2nd International
Conference on (pp. 209-212). IEEE.
Lee, J., Jeong, D., Han, J. S., Jang, S., Lee, S., Cho, K., & Park, S. (2015). Design and
Implementation of IoT Sensor Network Architecture with the Concept of Differential
Security Level. ICN 2015, 236.
Olivier, F., Carlos, G., & Florent, N. (2015). New security architecture for IoT
network. Procedia Computer Science, 52, 1028-1033.
Peng, M., Li, Y., Zhao, Z., & Wang, C. (2015). System architecture and key technologies for 5G
heterogeneous cloud radio access networks. IEEE network, 29(2), 6-14.
Rost, P., Banchs, A., Berberana, I., Breitbach, M., Doll, M., Droste, H., ... & Sayadi, B. (2016).
Mobile network architecture evolution toward 5G. IEEE Communications
Magazine, 54(5), 84-91.
Sarwesh, P., Shet, N. S. V., & Chandrasekaran, K. (2017). Energy-Efficient Network
Architecture for IoT Applications. In Beyond the Internet of Things (pp. 119-144).
Springer, Cham.
Schulz, P., Matthe, M., Klessig, H., Simsek, M., Fettweis, G., Ansari, J., ... & Puschmann, A.
(2017). Latency critical IoT applications in 5G: Perspective on the design of radio
interface and network architecture. IEEE Communications Magazine, 55(2), 70-78.
Sinha, R. S., Wei, Y., & Hwang, S. H. (2017). A survey on LPWA technology: LoRa and NB-
IoT. ICT Express, 3(1), 14-21.
ASSESSMENT ITEM 2
Information and Communication Technologies (AICT), 2017 2nd International
Conference on (pp. 209-212). IEEE.
Lee, J., Jeong, D., Han, J. S., Jang, S., Lee, S., Cho, K., & Park, S. (2015). Design and
Implementation of IoT Sensor Network Architecture with the Concept of Differential
Security Level. ICN 2015, 236.
Olivier, F., Carlos, G., & Florent, N. (2015). New security architecture for IoT
network. Procedia Computer Science, 52, 1028-1033.
Peng, M., Li, Y., Zhao, Z., & Wang, C. (2015). System architecture and key technologies for 5G
heterogeneous cloud radio access networks. IEEE network, 29(2), 6-14.
Rost, P., Banchs, A., Berberana, I., Breitbach, M., Doll, M., Droste, H., ... & Sayadi, B. (2016).
Mobile network architecture evolution toward 5G. IEEE Communications
Magazine, 54(5), 84-91.
Sarwesh, P., Shet, N. S. V., & Chandrasekaran, K. (2017). Energy-Efficient Network
Architecture for IoT Applications. In Beyond the Internet of Things (pp. 119-144).
Springer, Cham.
Schulz, P., Matthe, M., Klessig, H., Simsek, M., Fettweis, G., Ansari, J., ... & Puschmann, A.
(2017). Latency critical IoT applications in 5G: Perspective on the design of radio
interface and network architecture. IEEE Communications Magazine, 55(2), 70-78.
Sinha, R. S., Wei, Y., & Hwang, S. H. (2017). A survey on LPWA technology: LoRa and NB-
IoT. ICT Express, 3(1), 14-21.
14
ASSESSMENT ITEM 2
Talpur, M. S. H., Bhuiyan, M. Z. A., & Wang, G. (2014). Shared–node IoT network architecture
with ubiquitous homomorphic encryption for healthcare monitoring. International
Journal of Embedded Systems, 7(1), 43-54.
Tang, C. S., Chiang, Y. K., Tsou, Y. D., Ju, J. H., & Twu, C. Y. (2016, October). A converged
network architecture for ICT and IoT combined applications. In Network Operations and
Management Symposium (APNOMS), 2016 18th Asia-Pacific(pp. 1-4). IEEE.
Tomovic, S., Yoshigoe, K., Maljevic, I., & Radusinovic, I. (2017). Software-defined fog
Network architecture for IoT. Wireless Personal Communications, 92(1), 181-196.
Vangelista, L., Zanella, A., & Zorzi, M. (2015, September). Long-range IoT technologies: The
dawn of LoRa™. In Future Access Enablers of Ubiquitous and Intelligent
Infrastructures(pp. 51-58). Springer, Cham.
Wang, Q., Lee, B., Murray, N., & Qiao, Y. (2016, June). CS-Man: Computation service
management for IoT in-network processing. In Signals and Systems Conference (ISSC),
2016 27th Irish (pp. 1-6). IEEE.
Zhou, J., Cao, Z., Dong, X., & Vasilakos, A. V. (2017). Security and privacy for cloud-based
IoT: Challenges. IEEE Communications Magazine, 55(1), 26-33.
ASSESSMENT ITEM 2
Talpur, M. S. H., Bhuiyan, M. Z. A., & Wang, G. (2014). Shared–node IoT network architecture
with ubiquitous homomorphic encryption for healthcare monitoring. International
Journal of Embedded Systems, 7(1), 43-54.
Tang, C. S., Chiang, Y. K., Tsou, Y. D., Ju, J. H., & Twu, C. Y. (2016, October). A converged
network architecture for ICT and IoT combined applications. In Network Operations and
Management Symposium (APNOMS), 2016 18th Asia-Pacific(pp. 1-4). IEEE.
Tomovic, S., Yoshigoe, K., Maljevic, I., & Radusinovic, I. (2017). Software-defined fog
Network architecture for IoT. Wireless Personal Communications, 92(1), 181-196.
Vangelista, L., Zanella, A., & Zorzi, M. (2015, September). Long-range IoT technologies: The
dawn of LoRa™. In Future Access Enablers of Ubiquitous and Intelligent
Infrastructures(pp. 51-58). Springer, Cham.
Wang, Q., Lee, B., Murray, N., & Qiao, Y. (2016, June). CS-Man: Computation service
management for IoT in-network processing. In Signals and Systems Conference (ISSC),
2016 27th Irish (pp. 1-6). IEEE.
Zhou, J., Cao, Z., Dong, X., & Vasilakos, A. V. (2017). Security and privacy for cloud-based
IoT: Challenges. IEEE Communications Magazine, 55(1), 26-33.
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