The Retail Industry particularly grocery and supermarket in the Philippines is a multi-billion-dollar business comprises of various major brand retailers in the land. This is one of the celebrated industries where you can see competing supermarkets in every block of every major city both rural and urban across the archipelago amassing a total of 10000 listed stores (circa 2018). The Retail Industry, just like any other industries, suffered and hampered their growth. However, since they are considered essential, they have been able to bounce back. E-commerce played as a major contributor in the retail industry. It plays a pivotal role in lessening the potential harm of business loss brought by the pandemic. Many establishments were forced to shut down their operations in compliance to the quarantine measures by the draconian approach of the government. E-commerce is not relatively new in the artillery of the retail industry but it has made the industry more resilient in order to cope up with the restrictions in order to continue to provide their services to the consumers and public. From the time of writing, the purpose of this study is to evaluate the resilience and competence of the Retail Industry in which the old brick and mortar no longer applies and how by thinking out of the box, innovation and creativity arises in order for businesses to thrive specially those who are just starting to build their names and brand.

Technology nowadays is the main source for knowledge because it easy to use and cheap to buy and it is available everywhere on other hand it don't need physical power .Also, the smart technology is the main technique for communication as they use to transfer of data and information from one place to other place , by smart technology the communication and connecting between people became very easy because the information and data are transferring to other place where it is far away from the sender to the receiver and the massages take apart of seconds to transfer.

The Miocene reservoir of the “Horse” Field comprises sands, silts and muds, attributed to deposition from short-headed turbidite fan. The reservoir ranges in thickness from 30.5 m to 122.0 m. It is characterised by variable net-to-gross ratio, porosity and permeability.The OWC is found at -4353.8 mTVDSS as obtained from well logs. The reservoir has a base Original Oil In Place (OOIP) of 643 Million Barrels. The aim of this study is to assess connectivity in the Miocene reservoir interval of the “Horse" Field. Based on the analysis of meso-scale architectural elements, three facies sequences were delineated: HM1, HM2, and HM3. Among these sequences, HM2 sand has the best reservoir quality. Available data suggest that this sand form the highest pay sand within the Miocene reservoir interval.The crest of the main anticlinal fold, which forms the major structural trapping system, is moderately faulted. If these faults are sealing, they may effectively compartmentalize the reservoir resulting in poor reservoir connectivity.

Electricity supply obtained from DC sources like photovoltaic cells is not usually compatible with nominal bias voltage requirement for most appliances, hence the need for voltage conversion. One of such converter is the flyback converter system. The flyback converter is a DC-DC converter capable of stepping up or stepping down DC voltage while providing galvanic isolation between its input and output sides. In this work, a flyback converter system is designedusing the Amp and Volts seconds balance equations on the state space model. The designed system deployed a PI controller having gains obtained from classical root locus technique implemented in MATLAB SISOTOOL. The flyback converter circuit design considered a strategy that handles undesirable surge current during switching transitions so as to protect the circuit. It was demonstrated that by keeping the armature voltage constant, the DC Motor will run at constant speed even when acted upon by a variable load provided the load is not beyond the capacity of the motor. Also varying the armature voltage will ensure that DC motor runs at variable speed. The step response analysis of the closed loop controlled system shows that a rise time of 0.7ms and a peak overshoot of 5.11% were achieved giving the system a faster and stable response.

Data derived from several appraisal wells has shown the “Success” field to be a viable development project. The field is highly faulted with a southern sealing boundary fault. Based on uncertainties that relate to trap mechanism, production rate, net-to-gross distribution, permeability heterogeneity, and size and efficiency of aquifer to provide natural drive, a three-phase production profile is designed to target four hydrocarbon-bearing sand bodies. Proposed development plan involves a depletion strategy comprising 8 water injection wells and 19 oil production wells. Prior to start-up production, flow should be simulated to monitor reservoir performance under primary and secondary recovery mechanisms. The impact of water and subsequently gas production should also be assessed to inform injection strategy for maximum oil recovery.