Read or Download GDS Engine Room Simulator (ERS) Brochure:
Read or download GDS ERS Brochure.
Read or download GDS ERS Brochure.
In recent years, the maritime industry has seen a significant push towards technological advancement and stricter safety and operational standards. As vessels become more sophisticated and regulations evolve, the role of well-trained onboard maritime personnel becomes increasingly essential. In this context, the SIRE 2.0 program and GDS Ship Engine Room Simulator represent pioneering tools designed to equip maritime crews with deep technical skills necessary to meet new demands and improve the safety and efficiency of maritime operations.
The Ship Inspection Report Programme (SIRE) has long been a fundamental tool in maintaining safety and operational standards across the maritime industry, particularly for tanker operations. Launched by the Oil Companies International Marine Forum (OCIMF), the program provides a comprehensive inspection system that evaluates the condition and operations of vessels. However, with the growing complexity of modern vessels and stricter environmental and safety regulations, the traditional SIRE program required enhancements to address these evolving needs. This led to the development of SIRE 2.0, an upgraded version that integrates data-centric inspection methodologies with a stronger focus on crew competency, operational excellence, and technical skills.
One of the key features of SIRE 2.0 is its focus on assessing the competency of crew members in handling complex equipment and operations. Rather than focusing solely on vessel condition, SIRE 2.0 evaluates the practical skills, knowledge, and decision-making abilities of onboard personnel. This ensures that crew members are not only familiar with equipment and operational standards but are also capable of responding effectively to critical situations.
The emphasis on crew competency in SIRE 2.0 aligns with the industry’s shift toward a human-centered approach in safety and operational excellence. This paradigm shift means that training programs must go beyond traditional instruction and delve into more practical, technology-driven skills, which is where simulators like the GDS Ship Engine Room Simulator come into play.
The GDS Ship Engine Room Simulator is an advanced training tool that replicates the engine room environment of modern vessels, providing maritime personnel with hands-on experience in a controlled setting. This simulator covers a wide range of critical systems found in ship engine rooms, including propulsion, auxiliary machinery, electrical systems, and emergency protocols. By using the simulator, crew members can practice their skills, refine their decision-making processes, and gain confidence in handling complex systems without the risks associated with real-world errors.
The simulator allows trainees to engage in realistic scenarios, such as equipment failures, power management issues, and environmental challenges. This training is invaluable in helping them develop deep technical skills needed to respond effectively under pressure. Given the increasing complexity of ship machinery, which often integrates digital and automated controls, such simulator-based training ensures that personnel are well-prepared for both routine and emergency operations.
By integrating SIRE 2.0’s competency standards with the practical capabilities of the GDS Ship Engine Room Simulator, maritime training institutions can foster deep tech skills that are essential in today’s high-stakes maritime environment. Training programs using these tools can address various aspects, including:
Operational Readiness: By simulating real-life engine room conditions, the GDS simulator enables personnel to develop an intuitive understanding of systems and processes, which aligns with SIRE 2.0’s focus on crew readiness and situational awareness.
Crisis Management and Decision-Making: The simulator provides scenarios that replicate emergency situations, allowing trainees to practice crisis response, prioritize actions, and make critical decisions under pressure.
Technical Proficiency: The GDS simulator helps personnel develop advanced skills in troubleshooting and maintaining complex machinery, which is crucial for achieving SIRE 2.0’s standards for operational excellence.
Environmental Compliance: With a growing emphasis on environmental regulations, the simulator enables crew members to familiarize themselves with compliance standards and practice procedures that reduce environmental impact, such as optimizing fuel usage and managing waste effectively.
Safety Protocols: Through realistic training scenarios, the simulator reinforces safety protocols, ensuring that personnel can identify and mitigate risks, which is a core component of the SIRE 2.0 inspection program.
Enhancing the Future of Maritime Training
As the maritime industry continues
SERS™ is provided with a total of seven (7) user manuals, student exercise workbooks, and documents as complementary to the training practices. All these documents are supplied with a license purchase. Using the SERS™ document set in classroom study also promotes the real-world engine room best work practices of using manuals in operation and management of the engine room machinary and systems.
SERS User Manual Vol I (Software Description) describes the SERS software with the SERS Graphical User Interface (GUI) Panels accessed from the SERS Main Graphical User Interface (GUI) Panel.
SERS User Manual Volume II (Engine Room Operations) includes the operational instructions on how to operate the engine room systems and machinery using the SERS. The training institutions can directly use the contents of this manual in their training procedures. There are also exercises included for use by the trainees for reporting.
SERS User Manual Vol III (Installation & Configuration) describes the installation and the configuration of the software and hardware items. Using this manual, SERS can be configured to run as a Distributed System and the touch screen hardware panels can be assigned to desired GUI panels using the configuration files.
SERS User Manual Volume IV (Instructor’s Manual) includes guides, information, and additional exercise tips for the instructors to utilize SERS in their trainings according to a specific training objective.
Student Exercise Workbook, Volume I: We are already using the simulator in our own training programs and developed Volume I with exercies that meets each objectives of the IMO Model Course 2.07. Volume I exercises includes the Engine Room Operational Level training objectives.
Student Exercise Workbook,Volume II: Volume II exercises includes the Engine Room Management Level training objectives in accordance with IMO Model Course 2.07.
SERS Philosophy Document provides how SERS may be used in a curricula or in engine room simulator training programs. It provides guides for selecting the configuration of the SERS according to the training objectives.
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With our product, certified by the Nippon Kaiji Kyokai (Class NK) as a Class A (Full Mission) Engine Room Simulator, our purpose is to ensure that the instructors can efficiently utilize this training environment in their Maritime Education and Training (MET) programs and that the trainees can have a productive training.
Developed by GDS Engineering R&D; our product called Ship Engine Room Simulator (SERS);
For more information, clisk here to read the details of the GDS ERS in our ERS product page. https://www.globaldynamicsystems.com/
or watch our YOUTUBE CHANNEL for more information with some example videos.
Dr İsmail Çiçek 1990 yılında İstanbul Teknik Üniversitesi (İTÜ) Gemi Makineleri İşletme Mühendisliği Bölümünden mezun oldu. Akademik dünya ve endüstrinin değişik alanlarındaki çalışmalarıyla geniş tecrübe sahibi olan İsmail Çiçek, Texas Tech Üniversitesi Makine Mühendisliği Bölümünden 1995’de Yüksek Lisans 1999’da doktora diplomalarını aldı. Dr Çiçek yüksek lisans çalışmasında dizayn ve kontrol sistemleri, doktora çalışmasında ise mekanik titreşimler ve kontrol sistemleri konularında çalışmalar yaptı.
Dr İsmail Çiçek 1999-2003 yılları arasında İTÜ Denizcilik Fakültesi Gemi Makineleri İşletme Mühendisliği Bölümünde Öğretim Üyesi ve Bölüm Başkan Yardımcısı olarak görev yaptı. Bu süre içerisinde Dr Çiçek İTÜ Simülatör Merkezinin kurulması, International Association of Maritime Universities (IAMU) birliğinin oluşturulması, ve The State University of New York (SUNY) ile İTÜ Denizcilik Fakültesi arasında çift diplomalı lisans programının gerçekleştirilmesi çalışmalarında bulundu.
1997 yılından günümüze Dr. İsmail Çiçek ABD savunma sektöründe proje yapan şirketlerde ve ABD Hava Kuvvetleri Komutanlığı bünyesinde değişik program ve projelerde uzun yıllar (toplam 15 yıl) mühendis ve lider olarak çalışmalar yürüttü. Dr. Çiçek’in savunma sanayi deneyimi Coğrafi Bilgi Sistemlerini kullanan İnsansız Hava Aracı ve Sistemleri geliştirilmesi ve US Marine Corps’a teslimi, sabit kanat uçakların modernizasyonu (C-5, C-17, C-130 E/H/J, vb), askeri cihazlarının uçak, hava ve deniz araçlarında kullanılabilmesi için ortama uyumluluk testleri, insansız hava araçları için dizel motor geliştirilmesi ve uygulanması gibi önemli çalışmaları içermektedir.
Dr Çiçek, Raytheon ve Texas Tech Üniversitesi işbirliği ile hazırlanan Sistem Mühendisliği doktora programında Entegre Ürün Verifikasyon ve Validasyon dersini verdi. Titiz, enerjik ve mükemmel takım çalışması göstergeleri dolayısıyla İsmail Çiçek’e; Terra Health tarafından, 2009 yılında Mükemmel Mühendislik ve 2010 yılında Müşteriye Hizmette Üstünlük ödülleri, ABD Hava Kuvvetleri Komutanlığı’nca çok sayıda ödül ve teşekkür mektupları takdim edildi.
Bir çok bilimsel ve mühendislik yayınları olan ve uluslararası konferans etkinlikleri bulunan Dr. İsmail Çiçek halen ASTM, ASME, IEEE ve ISO gibi uluslararası profesyonel kuruluşlarda aktif üye olup, askeri ve sivil standartlar geliştiren komitelerde çalışmalar yapmaktadır. Dr. Çiçek’in uluslararası sivil ve askeri standartlar konusunda uygulamalı tecrübeleri bulunmaktadır.
Dr. İsmail Cicek, 2012 yılından itibaren İTÜ Denizcilik Fakültesi’nde Öğretim Üyesi olarak görev yapmakta, Otomatik Kontrol Sistemleri, Gemi Makine Dairesi Simülatörleri, Gemi Kontrol Sistemleri, Mekanik Titreşimler ve benzeri dersler vermektedir. Dr. İsmail Çiçek Üniversite-Sanayi işbirliklerine önem vermektedir, bu sebeple de IMSO, TÜLOMSAŞ, MILPER, FEMSAN, ve benzeri kurum ve kuruluşlar ile birlikte çalışmalar da yapmıştır.