This curriculum vitae provides personal and professional details about Tjahjono Mukti Widagdo Sastrosoemarto. It summarizes his education background which includes a bachelor's degree in electronic engineering from the Institute of Technology Adhi Tama Surabaya. It also lists over 15 years of work experience providing technical support and servicing various medical and laboratory instruments including hematology analyzers, gas chromatographs, and near infrared analyzers. Currently he works as the Chief Engineer Support at PT. Perth Scientific Indonesia providing technical support for their products.
CAREER SUMMARY
Almost 10 years experience As NDT Technician, QA/QC Engineer or Inspector and Supervisor Construction (Welding, Piping, Structure, and Mechanical) in Yard Fabriacation and Site Erection, Installation Petrochemical, Geothermal, Oil and Gas Project. Well familiar in the preparation of Test Package (Leak Test of Hydro and Pneumatic Test), Reinstatement, Punch list untill commissioning, Inspection of Positve Material Identification (PMI), Witness Preheat and Post Weld Heat Treatment, Maintanance of Interpass temperatur, Technical Reports, Testing Procedures, Documentation and Project Hand-over. Capable of Co-ordination, Supervision, Motivating personnel and doing physical work and other duties the Company may require.
My background education is Bachelor Degree of Naval Architecture Engineering with holder Welding Inspector (B4T Bandung, Indonesia), International Welding Inspection Personnel (IWIP) and ASNT Level II of Radiongraphy Interpreter, Ultrasonic Test, Magnetic Test and Penetrant Test. Beside that, familiar with various national & International codes such as : ASME – B31.1, B31.3 Sec. IX, Sec. VIII, Sec. V, Sec II, API-1104, AWS D1.1 etc.
Mobile no : +628119636999 / +6282310263999
International Passport No : A9582648
Email : ahmad_anbika@yahoo.com
Internet of Things: Low Cost and Wearable SpO2 Device for Health Monitoring IJECEIAES
This paper discusses a device for measuring oxygen saturation (SpO2) and heart rate as parameters of the representations of heart conditions. SpO2 device that have been made has a small dimension, wearable and high mobility with battery as the main power source. The device connects to a node MCU as a data processor and an internet network gateway to support internet of things applications. Data sent to the Internet cloud can be accessed online and real time via website for further analysis. The error rate at heart rate measurement is ± 2.8 BPM and for oxygen saturation (SpO2) is ± 1.5%. Testing data transmission delay until it can be displayed on website is 3 second that depends on internet traffic conditions.
CAREER SUMMARY
Almost 10 years experience As NDT Technician, QA/QC Engineer or Inspector and Supervisor Construction (Welding, Piping, Structure, and Mechanical) in Yard Fabriacation and Site Erection, Installation Petrochemical, Geothermal, Oil and Gas Project. Well familiar in the preparation of Test Package (Leak Test of Hydro and Pneumatic Test), Reinstatement, Punch list untill commissioning, Inspection of Positve Material Identification (PMI), Witness Preheat and Post Weld Heat Treatment, Maintanance of Interpass temperatur, Technical Reports, Testing Procedures, Documentation and Project Hand-over. Capable of Co-ordination, Supervision, Motivating personnel and doing physical work and other duties the Company may require.
My background education is Bachelor Degree of Naval Architecture Engineering with holder Welding Inspector (B4T Bandung, Indonesia), International Welding Inspection Personnel (IWIP) and ASNT Level II of Radiongraphy Interpreter, Ultrasonic Test, Magnetic Test and Penetrant Test. Beside that, familiar with various national & International codes such as : ASME – B31.1, B31.3 Sec. IX, Sec. VIII, Sec. V, Sec II, API-1104, AWS D1.1 etc.
Mobile no : +628119636999 / +6282310263999
International Passport No : A9582648
Email : ahmad_anbika@yahoo.com
Internet of Things: Low Cost and Wearable SpO2 Device for Health Monitoring IJECEIAES
This paper discusses a device for measuring oxygen saturation (SpO2) and heart rate as parameters of the representations of heart conditions. SpO2 device that have been made has a small dimension, wearable and high mobility with battery as the main power source. The device connects to a node MCU as a data processor and an internet network gateway to support internet of things applications. Data sent to the Internet cloud can be accessed online and real time via website for further analysis. The error rate at heart rate measurement is ± 2.8 BPM and for oxygen saturation (SpO2) is ± 1.5%. Testing data transmission delay until it can be displayed on website is 3 second that depends on internet traffic conditions.
Implementation of electronic stethoscope for online remote monitoring with mo...journalBEEI
The stethoscope is a piece of medical standard equipment that isused by a physician for an initial examination of the patient. Generally, the stethoscopeis used for auscultating sounds which are generated by the workings of organ systems such as cardiac, lung or digestive. In the present condition with the growing number of the patient population, it has an impact on the burden of hospitals and medical practitioners. So that treatment is not optimal, especially patients who need continuous monitoring. Thus it needs a system that can work dynamically, flexibly and remotely based. This paper focuses on the implementation of the electronic stethoscope which is integrated with a mobile phone as the modality of online data transmission through the internet network. The prototype of an electronic stethoscope uses condenser mic, pre-amplifier, wide bandpass filter (20 Hz-1 KHz) and audio amplifier. The maximum gain is 28.63 dB in the 20 Hz-690 Hz frequency range. The signal output can be connected to the android mobile through the jacked phone to be stored in MP3 format and then sent to the cloud server for further monitoring and analysis. The application called “Steder” supports realtime communication between patient and physician for medical check-up, consultation, and discussion activities.
ROLE OF SUBSTANTIAL CHARACTERISTICS IN ELECTRONIC NOSE SENSOR SELECTION FOR D...IAEME Publication
Electronic Nose has widen up the possibilities of detection and analysis of certain factors for environmental, medical, narcotic, military and many more application areas. A systematic approach for the parameter selection and choice of proper sensor arrays determines the quality of the expected output. The main motto behind the approach is to obtain certain outcomes as the final result of analysis carried out on the basis of data acquired. Certain characteristics and properties play a vital role in the entire process of odor recognition, ranging from sensor selection to odor measurement and analysis
Air quality has been largely affected by industrial activities, which have caused many health issues among people. Air pollutants levels can be measured using gas sensors. Internet of Things (IoT) technology can be used to remotely detect pollution. IOT devices can be used to control basic functions from anywhere around the world through the internet. The data gathered by such a system can be transmitted instantly to a web-based application to enable monitoring real time data and allow immediate risk management. The aim is to build a system which can be used to monitor the parameters in different environments. Here, we describe an entire Internet of Things (IoT) system that collects real-time data in specific locations. This real-time data collected is compared with a predetermined threshold. This data is sent to the concerned organization notifying them about the values exceeding the threshold if any and take necessary actions if needed
Air quality has been largely affected by industrial activities, which have caused many health issues among people. Air pollutants levels can be measured using gas sensors. Internet of Things (IoT) technology can be used to remotely detect pollution. IOT devices can be used to control basic functions from anywhere around the world through the internet. The data gathered by such a system can be transmitted instantly to a web-based application to enable monitoring real time data and allow immediate risk management. The aim is to build a system which can be used to monitor the parameters in different environments. Here, we describe an entire Internet of Things (IoT) system that collects real-time data in specific locations. This real-time data collected is compared with a predetermined threshold. This data is sent to the concerned organization notifying them about the values exceeding the threshold if any and take necessary actions if needed.
Implementation of electronic stethoscope for online remote monitoring with mo...journalBEEI
The stethoscope is a piece of medical standard equipment that isused by a physician for an initial examination of the patient. Generally, the stethoscopeis used for auscultating sounds which are generated by the workings of organ systems such as cardiac, lung or digestive. In the present condition with the growing number of the patient population, it has an impact on the burden of hospitals and medical practitioners. So that treatment is not optimal, especially patients who need continuous monitoring. Thus it needs a system that can work dynamically, flexibly and remotely based. This paper focuses on the implementation of the electronic stethoscope which is integrated with a mobile phone as the modality of online data transmission through the internet network. The prototype of an electronic stethoscope uses condenser mic, pre-amplifier, wide bandpass filter (20 Hz-1 KHz) and audio amplifier. The maximum gain is 28.63 dB in the 20 Hz-690 Hz frequency range. The signal output can be connected to the android mobile through the jacked phone to be stored in MP3 format and then sent to the cloud server for further monitoring and analysis. The application called “Steder” supports realtime communication between patient and physician for medical check-up, consultation, and discussion activities.
ROLE OF SUBSTANTIAL CHARACTERISTICS IN ELECTRONIC NOSE SENSOR SELECTION FOR D...IAEME Publication
Electronic Nose has widen up the possibilities of detection and analysis of certain factors for environmental, medical, narcotic, military and many more application areas. A systematic approach for the parameter selection and choice of proper sensor arrays determines the quality of the expected output. The main motto behind the approach is to obtain certain outcomes as the final result of analysis carried out on the basis of data acquired. Certain characteristics and properties play a vital role in the entire process of odor recognition, ranging from sensor selection to odor measurement and analysis
Air quality has been largely affected by industrial activities, which have caused many health issues among people. Air pollutants levels can be measured using gas sensors. Internet of Things (IoT) technology can be used to remotely detect pollution. IOT devices can be used to control basic functions from anywhere around the world through the internet. The data gathered by such a system can be transmitted instantly to a web-based application to enable monitoring real time data and allow immediate risk management. The aim is to build a system which can be used to monitor the parameters in different environments. Here, we describe an entire Internet of Things (IoT) system that collects real-time data in specific locations. This real-time data collected is compared with a predetermined threshold. This data is sent to the concerned organization notifying them about the values exceeding the threshold if any and take necessary actions if needed
Air quality has been largely affected by industrial activities, which have caused many health issues among people. Air pollutants levels can be measured using gas sensors. Internet of Things (IoT) technology can be used to remotely detect pollution. IOT devices can be used to control basic functions from anywhere around the world through the internet. The data gathered by such a system can be transmitted instantly to a web-based application to enable monitoring real time data and allow immediate risk management. The aim is to build a system which can be used to monitor the parameters in different environments. Here, we describe an entire Internet of Things (IoT) system that collects real-time data in specific locations. This real-time data collected is compared with a predetermined threshold. This data is sent to the concerned organization notifying them about the values exceeding the threshold if any and take necessary actions if needed.
1. CURRICULUM VITAE
I. PERSONAL DATA :
N a m e :Tjahjono Mukti Widagdo Sastrosoemarto
Call name :(Cahyo / Dodit)
Place/Date of Birth :Jakarta, July 17, 1970
Sex :Male
Marital Status :Married
Identity Address :Wisma Angkasa Pura
Jl. Mokmer H6 RT/RW 009/07
Gn. Sahari Utara Kec. Sawah Besar
Jakarta 10720
Stay Address :Perum Gria Jakarta
Jl. Kemang B1 / 22 RT 05/08
Pamulang Barat - 15417
Tangerang Selatan
Phone :+62 21 – 2680 59 56 / +62 21 9368 5568
Mobile Ph. :+62 812 - 8010 590
E-mail :widagdosas@gmail.com
Skype :widagdo.sas
Religion :Moslem
Nationality/Passport :Indonesian, valid until
16th
December 2016.
II. EDUCATION BACKGROUND :
Formal :
1. 1990-1996 Institute of Technology Adhi Tama Surabaya
Majoring in Electronic Engineering
2. 1986-1989 Senior High School at SMAN I, Jakarta
3. 1983-1986 Junior High School at SMPN V, Jakarta
4. 1977-1983 Elementary School at SD Perwara, Jakarta
Non Formal :
1. English Conversation Class at PPIA Surabaya
in August 1995 to April 1996
2. Overseas Service Repair Training Program covering
TRACE GC 2000, AS2000and HS
2000instrumentation in Bangkok, Thailand
on August 2000
2. 3.Overseas Service - Repair Training UnityScientific –
NIR SpectraStar in Bangkok, Thailand , January
2011 & November 2012
4.Overseas Soluscope Endoscope Reprocessor Service –
Repair Training for Serie 4, Serie 3, DSC 8000 in
Bangkok, Thailand, December 2012
5.Overseas AMS & Systea Service – Service Repair Training for
Futura & SmartChem Training in Shenzen - China , May 2013
III. WORKING EXPERIENCES :
During Study:
1. Field Work at EBS FM Commercial Radio Broadcast Surabaya
In August to September 1993.
2. Implementation and design of electronic lay out The ECG on
Computer System for “final assignment”.
After Graduated:
Have Travelling within Indonesia for installation, service-
repair, maintenance to many customer.
1. Technical Support product of:
A. Ultrasound Doppler instrument to detect and counting
of fetal heart rate.
B. Electro Couter instrument for coagulating, cutting;
C. Ultrasound Diagnostic equipment to calculate and imaging;
D. Cardiotocography equipment to detect and monitoring fetal
heart rate;
E. Bone Densitometer Scanner Computer System Equipment to
scanning by X-Ray and calculating percentage of bone
density.
As Technicians Support at CV. BETA MEDICAL Jakarta
for 2 years.
2. Technical Support product of:
A. Near Infra-Red Analyzer for Organic Compound
B. Gas Chromatograph for verify in-organic Compound
C. Instrumentation System
Installation, pre-assembly (BBIK-Ceramics Industrial
Research in Bandung)in December 1999:
Manual Copying Machine for Electric Insulator, Jiggering
Machine, Vacuum Slip Agitator, Roller Heart Kiln
10 Metres, Hydrolic Press 20 ton
D. (1800 degree Celcius) High Temperature Furnace.
As Service Engineer at PT. THERMINDO INTI WIRAJAYA
for 3 years .
3. 3. Technical Support product of:
A. GC (Gas Chromatography)/MS (Mass Spectroscophy) product
As Service Engineer at PT. CE INSTRUMENTS for 6 months.
4. Technical Support product of:
A. NIR (Near Infra-Red) Analyzer for determining oil, fat,
protein, moisture, FFA, IV, PV in food/oleo chemical /
Organic Compound ;
B. GC (Gas Chromatography) Instrument for verify in-organic
Compound.
As Freelance Service Engineer at PT. DWICAHYA BETANINDO
for 1 year.
5. Technical Support product of:
A. NMR (Nuclei Magnetic Resonance) Instrument to
Determining moisture, oil, solid fat or total fat
content in Palm Oil Industry;
B. FT-NIR (Fourier Transform-Near Infra-Red) Instrument to
determining oil, fat, protein, moisture, FFA, IV, PV in
food / oleo chemical Industry.
As Freelance Service Engineer at Bruker Indonesia RO
(Representative Office) for 8 months
6. Technical Support product of:
A. Hematology Analyzer Instrument to counting amount
components of blood such as Lekocyte, Erythrocyte,
Thrombocyte, etc;
B. Blood Gas Analyzer Instrument to determining
pH, percentage of CO2 and O2 in blood.
As Service Engineer at PT. MENDJANGAN
Since October 2003 up to August 2008.
7. Technical Support product of:
A. HPLC – High Performance Liquid Chromatography
B. AAS – Atomic Absorb Spectrometry
C. GC/GCMS/LCQ MS – Gas Chromatography, Mass Spectrometry,
Liquid Chromatography Quantum.
D. General Laboratory Instruments.
As Service Engineer at PT. MULTI INDOSAINTIFIK
Since September 2008 up to January 2010.
8. Technical Support product of:
a. Automatic Endoscopy Reprocessor Machine for Hospital,
b. NIR – Near Infra Red Analyzer for Industrial Quality
control
General Laboratory Instruments,
c. Continuous Flow Analyzer Instrument & Discrete Analyzer for
Automated Chemistries.
4. As Chief Engineer Support at PT. PERTH SCIENTIFIC INDONESIA
Since January 2010 up to now.
Ability :
* Correspondence and conversation in English.
* Using Windows Application.
Willing :
1. To be trained
2. To work hard
I here with declare that the best of my knowledge and belief
the above statement is correct and true.
Yours Truly,
(Tjahjono MWS,ST)