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In retrospectives on Brunei’s first feature film Gema Dari Menara (1968), commentators have tended to focus on either its historical representation of Brunei’s booming post-curfew years in the late 1960s as ‘a time capsule of Brunei’s lost pop history’, or the film’s propagandistic nature for Da’wah (religious propagation). In this paper, however, I will concentrate my observations on the aesthetic values of the film itself, including the narrative structure, plot design, camerawork, characterisation and character relationships, as well as the resulting artistic effects manifested by these production elements as a whole.

Putting all the propagandistic elements aside, I would like to argue that Gema Dari Menara, as a family melodrama, is carefully constructed and propelled by the above-mentioned filmmaking techniques. The drama not only tells the story of an intense familial conflict revolving around the theme of faith rooted in the Bruneian tradition, it also implies the necessity of an internal negotiation between the predominant Islamic ideology and the increasingly secularised Bruneian civil society at the time. While the implied negotiation may have been unintended or subconscious in the original making of the film, it is well-balanced and reflective of the political and social reality of Brunei as a British Protectorate in the late 1960s, foreshadowing the current coexistent status quo of the dominance and sacredness of MIB and the secular popular culture in Brunei.

This paper reports a new technique for achieving optimized design for power system stabilizers. In any large scale interconnected systems, disturbances of small magnitudes are very common and low frequency oscillations pose a major problem. Hence small signal stability analysis is very important for analyzing system stability and performance. Power System Stabilizers (PSS) are used in these large interconnected systems for damping out low-frequency oscillations by providing auxiliary control signals to the generator excitation input. In this paper, collective decision optimization (CDO) algorithm, a meta-heuristic approach based on the decision making approach of human beings, has been applied for the optimal design of PSS. PSS parameters are tuned for the objective function, involving eigenvalues and damping ratios of the lightly damped electromechanical modes over a wide range of operating conditions. Also, optimal locations for PSS placement have been derived. Comparative study of the results obtained using CDO with those of grey wolf optimizer (GWO), differential Evolution (DE), Whale Optimization Algorithm (WOA) and crow search algorithm (CSA) methods, established the robustness of the algorithm in designing PSS under different operating conditions.

The paper aims to present a grid-connected multi-inverter for solar photovoltaic (PV) systems to enhance reliability indices after selected the placement and level of PV solar.

In this study, the associated probability is calculated based on the solar power generation capacity levels and outages conditions. Then, based on this probability, dependability indices like average energy not supplied (AENS), expected energy not supplied and loss of load expectations (LOLE) are computed, also, another indices have been computed such as (customer average interruption duration index (CAIDI), system average interruption frequency index (SAIFI) and system average interruption duration index (SAIDI)) addressing by affected customers with distribution networks reliability assessment, including PV. On the basis of their dependability indices and active power flow, several PV solar modules installed in several places are analyzed. A mechanism for assessing the performance of the grid's integration of renewable energy sources is also under investigation.

The findings of this study based on data extracted form a PV power plant connected to the power network system in Diyala, Iraq 132 kV, attempts to identify the system's weakest points in order to improve the system's overall dependability. In addition, enhanced reliability indices are given for measuring solar PV systems performance connected to the grid and reviewed for the benefit of the customers.

The main contributions of this study are two methods for determining the reliability of PV generators taking into consideration the system component failure rates and the power electronic component defect rates in a PV system which depend on the power input and the power loss using electrical transient analysis program (ETAP) program.