BEGIN:VCALENDAR VERSION:2.0 PRODID:-//Opus Kinetic - ECPv6.15.12.2//NONSGML v1.0//EN CALSCALE:GREGORIAN METHOD:PUBLISH X-ORIGINAL-URL:https://www.opuskinetic.com X-WR-CALDESC:Events for Opus Kinetic REFRESH-INTERVAL;VALUE=DURATION:PT1H X-Robots-Tag:noindex X-PUBLISHED-TTL:PT1H BEGIN:VTIMEZONE TZID:Asia/Singapore BEGIN:STANDARD TZOFFSETFROM:+0800 TZOFFSETTO:+0800 TZNAME:+08 DTSTART:20150101T000000 END:STANDARD END:VTIMEZONE BEGIN:VEVENT DTSTART;VALUE=DATE:20160222 DTEND;VALUE=DATE:20160223 DTSTAMP:20260407T092819 CREATED:20170623T031916Z LAST-MODIFIED:20170623T031916Z UID:10000095-1456099200-1456185599@www.opuskinetic.com SUMMARY:AVO - Principles\, Applications and Pitfalls DESCRIPTION:Overview\nAdvances in AVO & Attributes are becoming increasingly important technique to open up new doors for the seismic interpreter for accurate appraisals. In the last few decades there is increasing emphasis on more quantitative techniques for seismic interpretation as these can validate hydrocarbon anomalies and give additional information using prospect evaluation and reservoir characterisation. This course will equip you with the most essential knowledge you need to ultimately increase hydrocarbon discoveries. \nWho Should Attend\nThis course is ideal for professionals with an interest in AVO. Job titles include but are not limited to: \n\nExploration & Development Geoscientists (Geologists & Geophysicists)\nSeismic Interpreters\nReservoir & Petroleum Engineers\nPetrophysicists\nE&P Managers\n\nBenefits of Attending\n\nComprehend AVO & attribute building blocks\nApply AVO to real data\nExamine complex attributes and choose the best attributes\nMitigate data shortcomings and technique imperfections\nUse forward modelling as an interpretation tool\nIdentify data necessary to compute the model response\n\nEndorsed by: URL:https://www.opuskinetic.com/training/avo-principles-applications-and-pitfalls/ LOCATION:Malaysia\, Malaysia CATEGORIES:Oil/Gas/Petrochemicals GEO:4.210484;101.975766 END:VEVENT BEGIN:VEVENT DTSTART;VALUE=DATE:20160222 DTEND;VALUE=DATE:20160223 DTSTAMP:20260407T092819 CREATED:20170623T070846Z LAST-MODIFIED:20170623T071317Z UID:10000096-1456099200-1456185599@www.opuskinetic.com SUMMARY:Integrated Business Planning for Oil & Gas Upstream DESCRIPTION:Overview\nWith lower oil prices here for the foreseeable future\, management teams will continue to grapple with capital decisions\, cost control\, and potential acquisitions/ divestitures. The only certainty is that business plans will change. As management teams deal with these issues\, it is critical that important decisions are made in a coordinated manner and collectively across functions with enough lead time for efficient implementation. Operating\, marketing\, and financial plans all need to be integrated. Scenarios need to be modeled\, agreed in the best interest of the whole\, and then managed through implementation. \nIntegrated Business Planning (IBP) is a structured management level process that connects your strategy with execution by coordinating the plans\, decision making\, and performance management across functions. The teams that synchronize all the moving parts throughout their companies to reduce cash to cash cycle time and control spend will be the most successful in these challenging times. In this class we will: \n• Introduce Integrated Business Planning and its benefits\n• Review your business drivers and produce an IBP design that aligns with how you manage and budget the\nbusiness\, your organization structure\, and your underlying planning and reporting data structure\n• Examine IT requirements and supporting systems for IBP\n• Examine case studies from Nexview client work\n• Review tips and traps for implementation and change management techniques \nWho Should Attend\nCurrent and future leaders in areas such as: \n\nBusiness Unit/General Management\nPlanning\, Finance\, Budgeting\nSub-surface/Sub-sea\nProduction\nExploration\nDrilling\nMarketing\nSupply Chain\nProject Engineering & Infrastructure\nLand/Lease Management/Regulatory\n\nKey Learning Points\n\nLearn techniques to align planning\, decision-making\, and execution across functions\nReduce cycle time from location selection to production\nImprove spend visibility and management\nConnect the strategy and budget to execution\nWork to a single set of plans throughout the organisation\nDistribute the accountability for success across functional areas\nImprove scenario planning and decision making\nLink key performance indicators throughout the organization\nImprove the effectiveness of executive communications and direction to the organization\nUse best practice report templates and KPI scorecards\nImprove the effectiveness of meetings\nPrepare business cases and present results in an executive manner\nImplement techniques for change management\n\nEndorsed by: \n \n\nFor further information of this course\, please email to info@opuskinetic.com URL:https://www.opuskinetic.com/training/integrated-business-planning-for-oil-gas-upstream/ LOCATION:Malaysia\, Malaysia CATEGORIES:Corporate, Business Management and HR GEO:4.210484;101.975766 END:VEVENT BEGIN:VEVENT DTSTART;VALUE=DATE:20160225 DTEND;VALUE=DATE:20160226 DTSTAMP:20260407T092819 CREATED:20170623T050512Z LAST-MODIFIED:20170623T050512Z UID:10000141-1456358400-1456444799@www.opuskinetic.com SUMMARY:PP\, PS\, SP\, and SS Seismic DESCRIPTION:Overview\nConventional seismic data (marine data and vertical geophones for land data) is processed and interpreted as P-wave energy. However\, it is with the use of multi-component seismic\, with multi-component sources as well as multi-component receivers\, that the full (vector – ) wavefield will be recorded. Such datasets can then be used to extract\, with enhanced confidence\, P-wave and S-wave characteristics\, elastic constants\, and anisotropy attributes and be able to better discriminate lithologies and indicate the presence of hydrocarbons. \nThis requires special multi-component data processing techniques. As S-waves are more sensitive to anisotropy than P-waves and moreover display the unique feature of shear-wave birefringence (shear-wave splitting)\, it is necessary to take anisotropy into account in the processing. Such anisotropy can then be related to its causes and allow the derivation of e.g. fracture orientation and fracture density. As a marine environment does not support S-waves\, the only way to record S-waves in such an environment is with ocean bottom cables (OBC) and ocean bottom systems (OBS)\, where use is made of the generation of reflected S-wave energy at the reflectors from incident P-waves. Note that all seabed acquisition systems are necessarily multi-component systems. \nMulti-component data acquisition and the various ways of multi-component data processing will be treated and a full understanding of anisotropy will be provided. \nA case study with acquisition and processing of a real 3D nine-component seismic survey combines all aspects \nWho Should Attend\nGeophysicists and interpreters/geologists who want to familiarize themselves with all aspects multi-component seismic and be able to assess the added value of such datasets. As all seabed seismic systems are multi-component the application of this technology in a production environment (time-lapse) will only increase. The theory is based on first principles; the applications exploit the latest developments in acquisition and processing and demonstrates how multi-disciplinary teams can share information in a meaningful way \nKey Learning Points\n\nParticipants will be able to apply the commonly used multi-component processing methods and produce in the end the PP\, PS\, SP and SS datasets together with the characteristics of each of these for subsequent interpretation\nParticipants will understand anisotropy and be able to assess its consequences for seismic data processing and be able to extract the relevant anisotropy parameters and use these for subsequent interpretation\nParticipants can provide the geophysical input that is required in a multi-disciplinary team that is considering a multi-component seismic survey\n\nEndorsed by: \n \n\nFor further information of this course\, please email to info@opuskinetic.com URL:https://www.opuskinetic.com/training/pp-ps-sp-and-ss-seismic/ LOCATION:Malaysia\, Malaysia CATEGORIES:Oil/Gas/Petrochemicals GEO:4.210484;101.975766 END:VEVENT END:VCALENDAR