Development of a multi-layer project management framework for SME's using PHP and SQL
Research output: Thesis › Master's Thesis
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2021.
Research output: Thesis › Master's Thesis
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TY - THES
T1 - Development of a multi-layer project management framework for SME's using PHP and SQL
AU - Schmölzer, Hans-Jörg
N1 - embargoed until null
PY - 2021
Y1 - 2021
N2 - TThe interconnection of people, machines and products in the fourth industrial revolution (I4.0) is opening up more opportunities for managing projects. In response to these developments, project management must evolve as a result of the possibilities of direct integration of machines and process data. The possibilities of automated connections therefore pose new challenges for the interfaces between the different layers. In order to be successful with digital project management, a multi-layered networked solution that uniformly notes the machine data, activities of the employees and the times of these activities is required. Especially for SMEs, the cost factor for the development and support of such a solution must also be taken into account. Another point of digitally supported project management is the security of the data input. These must be protected against unauthorised manipulation and extraction. The objective of this thesis was to develop an end-to-end, adaptable solution for the integration of production and process data into a project management tool, with particular emphasis on auser-friendly graphical user interface. For the purpose of cost-effectiveness open source solutions, specifically PHP and SQL, were used. By using the software mentioned above, a multi-layered project management tool linked to the machinery has been created and put into use. By using this system, it is now possible to present the administration of projects, machines and employees in a simple and concise way. This leads to a significant reduction in administrative effort. Through the automated connection of essential machine data, such as operating and idle hours, it is also possible to optimise maintenance intervals. This leads to a further increase in efficiency in the area of maintenance and enables the use of modern predictive maintenance algorithms in the future.
AB - TThe interconnection of people, machines and products in the fourth industrial revolution (I4.0) is opening up more opportunities for managing projects. In response to these developments, project management must evolve as a result of the possibilities of direct integration of machines and process data. The possibilities of automated connections therefore pose new challenges for the interfaces between the different layers. In order to be successful with digital project management, a multi-layered networked solution that uniformly notes the machine data, activities of the employees and the times of these activities is required. Especially for SMEs, the cost factor for the development and support of such a solution must also be taken into account. Another point of digitally supported project management is the security of the data input. These must be protected against unauthorised manipulation and extraction. The objective of this thesis was to develop an end-to-end, adaptable solution for the integration of production and process data into a project management tool, with particular emphasis on auser-friendly graphical user interface. For the purpose of cost-effectiveness open source solutions, specifically PHP and SQL, were used. By using the software mentioned above, a multi-layered project management tool linked to the machinery has been created and put into use. By using this system, it is now possible to present the administration of projects, machines and employees in a simple and concise way. This leads to a significant reduction in administrative effort. Through the automated connection of essential machine data, such as operating and idle hours, it is also possible to optimise maintenance intervals. This leads to a further increase in efficiency in the area of maintenance and enables the use of modern predictive maintenance algorithms in the future.
KW - Industry 4.0
KW - Project management
KW - Software engineering
KW - Maintenance
KW - Open source programming
KW - Industrie 4.0
KW - Projekt Management
KW - Software engineering
KW - Instandhaltung
KW - Open Source Programmierung
M3 - Master's Thesis
ER -