ENGIN5210 Engineering Project Execution Research Report 1 Sample

Still, Looking for ENGIN5210 Engineering Project Execution Research Report 1 Sample? You’ve reached The Right Place!

Order Now

ENGIN5210 Engineering Project Execution Assignment 1 Sample

Assignment Details

Instructions and Guidelines -Annotated Bibliography

Purpose:

A formative assessment task to gauge the level of engagement of students with the unit, including to form an indication of any intervention that may be required.

Requirements:

• Review materials from the Internet on the selected topic related to the unit.

• Consider the topics covered in Sessions or Unit and use them to identify a topic of interest in the Project Management discipline.

• Conduct research via Library databases to identify academic sources that inform your topic.

Number of Sources: Select the 03 most informative sources to use for your annotated bibliography.

Report Length & Annotations: In 750 words of annotations (+/- 10%), excluding the reference list, describe each source in a separate paragraph on how it informs your topic in terms of key concepts. (250 words per source on average).

Review the advice on Task 1: https://guides.library.cornell.edu/annotatedbibliography

Refer to the Assessment Marking Rubric:
https://moodle.federation.edu.au/pluginfile.php/9174447/mod_resource/content/3/Assessment%201 %20-%20Annotated%20Bibliography%20-%20Marking%20Rubric%20- %202024%20%28ENGIN5210%29.pdf

Referencing Style: A detailed reference list must be cited in-text using IEEE style.

Uploading format: Uploaded your report as a .pdf document.

Cover Page: It should contain the following:

• Unit ID: ENGIN5210

• Assessment name and title: Assessment_Task_1_Annotated_Bibliography_Report

• Student Name & ID:

• Unit Coordinator / Lecturer Name:

• Date submitted:

• Word Count (excluding reference section):

• Number of Pages:

Page Layout:

• Margins: 1" (all sides)

• Page numbers: Every page (bottom left corner – in Footer)

• Font: Times New Roman or Arial.

• Font size: 12 pt.

• Headings: Bold and left-aligned

• Header: Full Name, Student ID & Group No.

• Alignment of Text: Justify

• Spacing: Use 1.5 line spacing within paragraphs.

Referencing resources:

• FedCite referencing tool: https://federation.edu.au/library/student-resources/fedcite

• Referencing basics (Study Skills website): https://studyskills.federation.edu.au/referencing/

Solution

Topic - Risk management on Skyscrapers/Tall Buildings

Article 1

Perera, U.D.S., Kulatunga, U., Abdeen, F.N., Sepasgozar, S.M. and Tennakoon, M. (2022) Application of building information modelling for fire hazard management in high-rise buildings: an investigation in Sri Lanka. Intelligent Buildings International, 14(2), pp.207-221. DOI: https://doi.org/10.1080/17508975.2021.1874858
Qualitative data has been chosen here to provide insights that already exist regarding the high-rise buildings in Sri Lanka. This data collection method is selected due to the lack of in-depth data about Sri Lanka. Ten semi-structured interviews of 1-2 hours each have been conducted to gather information about the buildings in the said nation and associated fire hazard risks. However, the second article focused on semi-structured interviews, similar to the first one, which discusses Sri Lankan buildings' risk management.

The chosen article properly discloses different information regarding building information modelling (BIM) and reflects on the fire hazard management done to avoid risks. The article focuses on Sri Lankan high-rise buildings and discusses the challenges of managing fire hazards and the strategies to mitigate the risks. However, building inconsistencies affect the risk management process and make it difficult to overcome the obstacles and redundancies viewed in the projects [2]. In addition, the influence of locations and the evolution of buildings create risks for overcoming the upcoming problems while constructing a building and later managing them with time [3]. Apart from this, it is seen that mitigating risks regarding fire hazard management becomes an issue when the buildings have no authorisation [1]. Thus, the first article elaborates on new technologies being used properly to avoid creating hazards for people while constructing a building in Sri Lanka. The designs and different stages of operations while constructing high-rise buildings in Sri Lanka have been elucidated in the first article, thus, giving a clear idea of the way risks should be managed.

Article 2

Waqar, A., Othman, I., Shafiq, N., Deifalla, A., Ragab, A.E. and Khan, M., (2023) Impediments in BIM implementation for the risk management of tall buildings. Results in Engineering, 20, p.101401. DOI: https://doi.org/10.1016/j.rineng.2023.101401

The article highlights the need for risk management concepts to safeguard the existence of tall buildings. Potential hazards and complexity are discussed to increase stakeholders' awareness of them. Building construction and operations require the implementation of BIM. A building information model is depicted in the article that values the semantic and geometric data to automate the design of the building. Inconsistencies and redundancies in the processes that affect the management of the risks. The concepts also include privacy, standardization, creativity, and designs. Tall buildings are prone to hazards and vulnerabilities. Organizational impediments also pose obstacles to the development of the buildings. The article also discusses the need to incorporate sophisticated engineering. On the contrary, the article by Perera et al. describes the changes in fire management hazards. The obstacles to implementing BMI have been applied in detail [2]. The previous article has depicted that skyscrapers encounter risks due to height issues, structural complexity, and the use of heavy machinery. The present article describes effective construction, occupancy, and maintenance factors for university assignment help.

Seventeen semi-structured interviews are conducted here to validate and identify previously identified risks. The SEM approach has been utilized to highlight the research's significance. Corporation and trust factors are also manifested through the interviews. It has also been found that lack of managerial support, complexity, and resource constraints affect building construction. BIM system also develops substantial productivity and organisational resilience. The discussion entails the technical limitations associated with BIM software. The effective description has demonstrated the structural challenges within the infrastructural setup.

Article 3

Lu, Y., Wei, W., Li, Y., Wu, Z. and Jin, H., 2020. The formation and evolution of interorganisational business networks in megaprojects: A case study of Chinese skyscrapers. Complexity, 2020(1), p.2727419. DOI: https://doi.org/10.1155/2020/2727419

Data collection within this research has been completed by using authentic organisational networks. Therefore, data was collected from the Skyscraper Centre of Council on Tall Buildings and Urban Habitat in this case. Furthermore, sources, such as Mega Project Case Study and Data Centre, have been used as data sources to gather a thorough understanding of complex engineering and management approaches. Therefore, it has been understood that the secondary data collection method has been implicated, and the research has gained access to authentic data sources that have covered the risk management datasets needed to develop a tall building. Thus, gathered data sets have effectively reflected the potential risks a tall building developer might face during the process.

The research findings have effectively portrayed light on different aspects, such as business networks, the evolution of key network elements, evolutions, and the influence of location. Furthermore, findings have showcased that business networks are effective for building developers and gaining resources, materials, skills and employee-based expertise. This article has been identified as a fit for gathering insight regarding risks and mitigating paths for skyscraper development. On the other hand, another research study has showcased the prioritisation of hazards and other complexities that stakeholders are concerned about [2]. Another article has highlighted the potential of information modelling in identifying risks regarding tall building developments [1]. Both the findings of the previously selected articles have portrayed the key maintenance to safely develop tall buildings or skyscrapers while satisfying the perception of stakeholders.

Reference list

[1] Perera, U.D.S., Kulatunga, U., Abdeen, F.N., Sepasgozar, S.M. and Tennakoon, M. (2022) Application of building information modelling for fire hazard management in high-rise buildings: an investigation in Sri Lanka. Intelligent Buildings International, 14(2), pp.207-221. DOI:https://doi.org/10.1080/17508975.2021.1874858

[2] Waqar, A., Othman, I., Shafiq, N., Deifalla, A., Ragab, A.E. and Khan, M., (2023) Impediments in BIM implementation for the risk management of tall buildings. Results in Engineering, 20, p.101401. DOI: https://doi.org/10.1016/j.rineng.2023.101401

[3] Lu, Y., Wei, W., Li, Y., Wu, Z. and Jin, H. “The formation and evolution of interorganisational business networks in megaprojects: A case study of Chinese skyscrapers”, Complexity, 2020(1), p.2727419. 2020, DOI: https://doi.org/10.1155/2020/2727419

Fill the form to continue reading
Would you like to schedule a callback?
Send us a message and we will get back to you

Main Services

Highlights

Earn While You Learn With Us
Confidentiality Agreement
Money Back Guarantee
Live Expert Sessions
550+ Ph.D Experts
21 Step Quality Check
100% Quality
24*7 Live Help
On Time Delivery
Plagiarism-Free

Our Samples

Get Instant Help
University Assignment Help

Still Finding University Assignment Help? You’ve Come To The Right Place!


CAPTCHA
AU ADDRESS
81 Isla Avenue Glenroy, Mel, VIC, 3046 AU
CONTACT
+61 493416265
EMAIL
support@uniassignmenthelp.net