Saudi Arabia is undertaking economic reforms where it is working towards reducing imports, encouraging manufacturing, and promoting the creation of localized technologies. This provides the Kingdom's private-sector with a unique opportunity for growth and expansion, in an effort to maintain relevance and maximize profits. One possible approach to achieve this is the establishment of indigenously grown research and development centers which utilize local talent and resources. Unfortunately, local talent is not necessarily at the level at which the future economy needs it to be and needs to be cultivated and nurtured with the correct methodology. This paper outlines a strategy for the development of local talent in the course of business operations and defines the various programs and initiatives that can be executed in the private-sector. It details a framework that companies can follow to mature and develop fresh hires for work in both traditional engineering projects and product development. Moreover, this paper describes the implementation of the aforementioned strategy and methodology by Rawabi Holding Company in an effort to not only develop innovative solutions and increase revenues, but also stimulate economic growth in Saudi Arabia's evolving environment. It analyzes the efforts taken by the company in order to develop their locally sourced talent in their established research and development group and evaluates the success of the measures taken. In summary, this paper provides a roadmap proven in the local market for talent development which can be used by the private-sector to benefit companies in transitioning to a more development and manufacturing oriented Saudi Arabia.
A high-profile VIP compound in Dhahran, Saudi Arabia, required monitoring of methane levels at 102 points due to excessive leaks in their underground natural gas delivery network. A wireless data acquisition and monitoring solution was developed for this purpose with the objective of reducing infrastructure work and cost, and decreasing human dependence for detecting and monitoring gas leaks, while maintaining reliability compared to traditional wired gas detection safety solutions. To attain this objective, a state-of-the-art wireless data acquisition and monitoring system was designed, developed, and then implemented at the site. A wireless network utilizing VHF band was deployed as the system backbone. The system's advanced wireless detection modules with gas sensors were installed at each monitoring point. These detection modules reported to the fully redundant system controllers which were designed in-house, with information and alarms displayed at strategically placed monitoring stations to alert the trained personnel to take immediate action. Establishing a stable wireless RF network allowed for a continuous stream of real-time data to the controllers from each gas sensor and an immediate alert of any gas releases. Historical data logs of the sensors allowed for identification of high risk points in the natural gas delivery network. SMS and email notifications were made available to further guarantee a prompt emergency response. Moreover, each advanced wireless detection module also allowed for monitoring of sensor and system diagnostics using proprietary analytics algorithms, thus allowing for timely preventive maintenance personnel to be deployed by the system operator and increasing system reliability and decreasing down-time. This case study presents an overview of the design of a wireless safety system for the monitoring of a highly dense area installed with gas sensors and analyzes its reliability and performance. The case study outlines how such innovative wireless solutions can be utilized to provide communities with peace of mind while keeping infrastructure requirements relatively low.
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