This blog is a simple How-To guide for all Apple fans. Since my title states that I’m an Apple aficionados, I’m a huge fan of all Apple products especially iPhone, Mac and AppleTV. As a result, you would expect to see my posts related to those gadgets. I will write about what I actually did with my own experience, so if it doesn’t work please don’t blame me. I’m open to all comments and opinions, feel free to give me any feed back.

SQNLDR. Jiradett kerdsri

Jiradett-Kerdsri-Curriculum Vitae (PDF)

Contact:

Mobile Phone: 66865007024

Email : jiradett@gmail.com

Personal Email: jiradett@kerdsri.com

Push Email: jiradett@me.com

EDUCATION

1993-1998  : Bachelor of Civil Engineering , Air Force Academy, Bangkok Thailand

2000-2003  : Master of Computer Science , Naval Postgraduate School, CA USA

2007-2008  : Master of Geographic Information Technology , University of Melbourne, Melbourne Australia

2011-present: Ph.D. student (ICT),  International Journal of Information and Communication Engineering

MILITARY COURSE

1999-2000 Student Pilot, Flying Training School, Nakhonprathom Thailand

2005 Squadron Officer Course, Squadron Officer School, Bangkok Thailand

2006 United Nation Military Observer, Peace Keeping Center, Newcastle Australia

EMPLOYMENT

1998-1999 : Survey Officer, Directorate of Logistics, Royal Thai Air Force, Responsible for the assets of Air Force

2000-2001 : Construction Officer, Directorate of Civil Engineering , Royal Thai Air Force, Design and maintain Air Force constructions

2003-2006 : Simulation Officer, Supreme Command Headquater , Operate the Command Control Communication and Intelligent system (C3I)

2006-2009 : Programming Officer, Supreme Command Headquater , Operate the Command Control Communication Intelligent and Computer system (C4I)

2009 – present: Researcher, Defence Technology Institute , Maintain the defence technology research for Department of Defence.

RESEARCH & INTEREST

 

Books

SNMP Over Wi-Fi wireless networks

This is my master research funded by US Homeland security which later reviewed by Pentagon and released to public in 2004.

Description:

This is a NAVAL POSTGRADUATE SCHOOL MONTEREY CA report procured by the Pentagon and made available for public release. It has been reproduced in the best form available to the Pentagon. It is not spiral-bound, but rather assembled with Velobinding in a soft, white linen cover. The Storming Media report number is A470514. The abstract provided by the Pentagon follows: Simple Network Management Protocol (SNMP) allows users of network equipment (i.e. Network Administrators) to remotely query the state of any device being tested for system load utilization and configuration. Windows NT windows 2000 and Windows XP Processional are all equipped with SNMP service so that an SNMP manager can communicate with an SNMP agent running on a wireless 802.11b client. However the rest of Windows operating systems including Windows CE and a Pocket PC have to run third party proxy SNMP agents in order to be recognized by an SNMP management application. This thesis describes an implementation of a Pocket PC SNMP agent for two Pocket PC mobile devices accessing a wired network via an 802.11b wireless link. As a result of the implementation performed in this thesis an SNMP manager can wirelessly communicate with a Pocket PC client. However other results found that only some of the commercially available SNMP managers are able to access the mobile SNMP client and its management information base due to incompatible implementations of the server and client software.

Wiki

หอ สมุดแห่งเมืองอเล็กซานเดรีย ประเทศอียิปต์ เคยได้ชื่อว่าเป็นศูนย์กลางความรู้ของมนุษย์ชาติ ทั้งยังถูกจัดเป็นหนึ่งในเจ็ดสิ่งมหัศจรรย์ของโลกยุคโบราณอีกด้วย ในโลกยุคปัจจุบัน องค์กรถูกขับเคลื่อนด้วยข้อมูล ข่าวสารและประสบการณ์ที่บุคลากรสะสมมาเป็นเวลานาน ดังนั้นการนำเทคโนโลยี Wiki มาระดมสมองจึงเปรียบเสมือนการสร้างคลังความรู้ที่ทุกคนสามารถเข้าถึงและดึง มาใช้ได้ในทุกสถานการณ์

Publications

1. The use of RFID in solid propellant rocket production management system, WASET conference 2010

Abstract— Keeping pace with other new technology, Radio Frequency Identification (RFID) technologies have been widely used to increase the efficiency of supply chain operation, store and inventory management and industrial production. The cutting-edge data capture capabilities of RFID systems, in addition to unique product identification and instantaneous information from various data sources, develop efficient management of supply chain processes and logistics, real-time visibility of the stock pile, security and decision support. As a result, RFID technologies have been employed by the military to gain in-transit visibility and improve inventory management. Nevertheless, the risks of using RFID are still critical factors in some areas of military production, especially in munition and explosive productions. The US DoD policy states that those items are not to be tagged until the following certification requirements are met for the passive RFID tag: electromagnetic effects on the environment (E3) and Hazards of Electromagnetic Radiation to Ordnance (HERO). In this paper the Recommended Power Densities and Safe Separation Distance (SSD) for HERO on RFID systems employed on rocket motor raw material and motor charging process are discussed. The result of this research found that RFID readers can be safely operated at close distances to the rocket motor base on AF Guidance Memorandum immediately changing AFMAN 91-201.

2. The safety of WiMAX in solid propellant rocket production , International Journal of Information and Communication Engineering     2011

Abstract— With the advance in wireless networking, IEEE 802.16 WiMAX technology has been widely deployed for several applications such as “last mile” broadband service, cellular back- haul, and high-speed enterprise connectivity. As a result, military employed WiMAX as a high-speed wireless connection for data-link because of its point to multi-point and non-line-of-sight (NLOS) capability for many years. However, the risk of using WiMAX is a critical factor in some sensitive area of military applications especially in ammunition manufacturing such as solid propellant rocket production. The US DoD policy states that the following certification requirements are met for WiMAX: electromagnetic effects on the environment (E3) and Hazards of Electromagnetic Radiation to Ordnance (HERO). This paper discusesthe Recommended Power Densities and Safe Separation Distance (SSD) for HERO on WiMAX systems deployed on solid propellant rocket production. The result of this research found that WiMAX is safe to operate at close proximity distances to the rocket production based on AF Guidance Memorandum immediately changing AFMAN 91-201.

3. Network Virtualization for Military Application: Review and Initial development of conceptual design , 14th International Conference on Advanced Communication Technology, 2012

Abstract— Networking Technology, undoubtedly, plays a vital role in modern warfare especially in Network Centric Operations (NCOs) and Global Information Grid (GIG) concept. However, the current popular network infrastructure, mainly TCP/IP architecture, is in fact unsuitable with advanced military communication especially in tactical operation networks. The key characteristics of military communications are classified as delay/disruption/disconnection tolerant networks (DTNs) which are long and variable delays, high error rates and greatly heterogeneous. As a result a call for new type of network architecture emerges to support such peculiar characteristics of military communication network. This paper reviews the current approaches in network technology of military communication and proposes the conceptual design of Virtualization Network (VN) for military communication to address the limitation of current network infrastructure. The implementation of Military Network Virtualization Environment (MVNE) introduces the crucial two new key features of military tactical network: information classification and movable nodes. These features along with essential research challenges must be analyzed to realize a viable virtualization network for military communications.