1. What do I do?
Technical Resume
In seismic acquisition, quality comes in first place,
since it reduces cost and time of operation and
optimizing the relation production/quality always
maximizes the technical benefit from the returned
information.
20/04/2016
AHMED A. MEGUID (M.SC. GEOPHYSICS)

2. Index
TECHNICAL PROFILE............................................................................................................ 2
1) Field Equipment and Material continuous checking:........................................................ 2
2) Record follow up since pre-plotting to final data delivery:............................................... 2
3) Data delivery preparation:................................................................................................. 3
4) Reporting and follow-up: .................................................................................................. 3
I. SITA ©IAN VINCENT @2012............................................................................. 4
II. SMTAN2 ©IAN VINCENT @2012 ..................................................................... 5
III. COMPARELINESTAT.M ©AHMED MEGUID @2008................................... 6
IV. SLX2 ©IAN VINCENT @2012............................................................................ 6
V. SEGDSEE (FREE DISTRIBUTED)..................................................................... 7
VI. SEISSEE (FREE DISTRIBUTED) ....................................................................... 8
PREVIOUS JOBS (2008 TO PRESENT) ................................................................................. 9
1. 2D_SEISMIC_PROGRAM_UM_AGAGA BASIN_2013............................................... 9
2. 0319_PETRA_BSF_VIB2D_2010 ................................................................................... 9
3. Colombia NISCOTA Program and Amazonas SPEC Program 0XXX_2D_AM-T-62 ... 9
4. 0295_ANP_2D_PARECIS.............................................................................................. 10
5. 0295_BR_3D_SUL_GUAMARE................................................................................... 10
6. 0295_BR_3D_PALMEIRA-GUAMARE....................................................................... 10
7. 0295_ANP_2D_PARNAÍBA.......................................................................................... 10
PHOTO GALLERY (2007 TO PRESENT)............................................................................ 12

3. TECHNICAL PROFILE
In order to guarantee the quality of each single record, the record is treated since the very
beginning for those two parallel ways are followed (When source is Dynamite):
1) Field Equipment and Material continuous checking:
Three periodic checking processes are usually applied, according to operator
requirements, to Field Equipment and Material:
 FDU daily checking test: by retrieving information out of the four daily test
records into SITA Software “Courtesy of Mr. Ian Vincent”:
a) Instrument Noise: to obtain Total Noise, DC Offset, and Sercel Noise,
b) Instrument Distortion: to obtain Total Distortion,
c) Instrument Gain/Phase: to obtain Gain Error and Phase Error, and finally,
d) Instrument Common mode: to obtain the Common Mode Rejection Ration
(CMRR).
 Complete pre-startup Geophone Test: by SGT-II (or SGT-200) designed for
Sercel GS-5 and GS-10 Geophone units (commonly used worldwide). The Test
checks at once all available Geophones’ Strings to guarantee their efficiency.
Data are retrieved into SMTAN2-257 Software “Courtesy of Mr. Ian Vincent”
to obtain:
a) Noise,
b) Resistance,
c) Frequency,
d) Damping,
e) Sensitivity,
f) Distortion,
g) Impedance, and
h) Temperature.
In order to reject the defecated strings that matches out of acceptance range
determined by fabricant.
 Random monthly Geophone Test: by SGT-II (or SGT-200) electing a random
sample of Geophone strings to be checked as explained previously.
 If required, Megger ohmmeter tester is applied.
2) Record follow up since pre-plotting to final data delivery:
Mainly the record follow up consists in:

4.  Pre-plot statistical analysis to secure matching intervals and azimuth as well as
line continuity.
 Post-plot statistical analysis to secure azimuth maintenance and line continuity
and to guarantee the acceptance variation from pre-plotted position and interval.
 In case of explosives, the holes’ depths are checked and registered.
 Production revision is done using SLX2 software “Courtesy of Mr. Ian
Vincent”.
 A quick revision is done on SEGD files using SeisSee package (free
distribuited).
 After record; noise, frequency, phase, polarity, and geometry are checked to
certify whether it attends the contractual specifications or not (Processing
Software to be defined by operator).
 A rejection depends on restricted demand by operator.
3) Data delivery preparation:
 Once all data are accepted and a Brute Stack is presented by contractors’
technicians (also depends on operator demands), data are prepared to be
delivered to Processing Center for that we check (Headers are checked using
SeisSee free distributed software):
a) Auxiliary Files,
b) Observer Reports,
c) SPS files, and
d) SEGD files in headers format defined by operator.
 Data are recorded on Digital Media agreed between operator and contractor
within last accepted version of data.
4) Reporting and follow-up:
All previous steps are always maintained easy to follow up by operator in spatial
mapping and database. And reports are issued in accordance to operator demand (could
be daily, weekly, monthly, or all).

5. I. SITA ©IAN VINCENT @2012
Figure 1. SITA Users' Interface.
Figure 2. SITA Results Interactive Window.
Figure 3. FDU-428 Standard Specifications.

6. II. SMTAN2 ©IAN VINCENT @2012
Figure 4. SMTAN2 Users' Interface.
Figure 5. SMTAN2 Results Interactive Window.
Figure 6. SG-5 & SG-10 Geophones Standard Specifications.

7. III. COMPARELINESTAT.M ©AHMED MEGUID @2008
Figure 7. Input Files’ Format. Figure 8. Pre-plot Stations’ Intervals
(Red) and their deviation from
theoretical (Blue).
Figure 9. Post-plot Stations’ Intervals
(Red), their deviation from theoretical
(Blue), and difference between Pre- and
Post-plots.
Figure 10. Normal Distribution of
Positions’ difference Pre- to theoretical
(up), Pre- to Post-plot (middle), and
Post- to theoretical (down).
Figure 11. Position Difference in
Northing (Red) and Easting (Blue)
between Pre- and Post-plots.
Figure 12. Normal Distribution of
Positions’ difference in Northing
direction (up) and Easting direction
(down).
Figure 13. Pre-plot Azimuth (Red) and
its deviation from theoretical (Blue).
Figure 14. Post-Plot Real Azimuth
(Red) and Deviation form Theoretical
Azimuth (Blue).
Figure 15. Normal Distribution of
Azimuth Error.
IV. SLX2 ©IAN VINCENT @2012
With special registration to Ahmed A. Meguid.
Figure 16. SLX2 Interface.

8. Figure 17. SLX2 Interactive Window.
V. SEGDSEE (FREE DISTRIBUTED)
Figure 18. SEGDSEE Record Visualization Window.
Figure 19. SEGDSEE Header Visualization Window.

9. VI. SEISSEE (FREE DISTRIBUTED)

10. PREVIOUS JOBS (2008 TO PRESENT)
1. 2D_SEISMIC_PROGRAM_UM_AGAGA BASIN_2013
July, 2013 to February, 2014.
In Loco FAS and QC Supervisor.
1,020 km of 2D Seismic Acquisition.
Vibroseis as Source.
Responsibilities:
1. Seismic 2D data acquisition consultant for AlSudan Energia at Umm Agaga
Basin, Kordofan, D. R. of Sudan.
2. Field Acquisition Supervisor (FAS).
3. Data QC Supervisor.
4. Technical Auditor of Seismic Crew.
2. 0319_PETRA_BSF_VIB2D_2010
November, 2010 to November, 2012
In Loco FAS and QC Supervisor.
21,000 km of 2D Crocked Lines Seismic Acquisition.
Vibroseis as Source.
Responsibilities:
1. Seismic 2D data acquisition consultant for Petra Energia at São Francisco
Basin, Minas Gerais, F. R. of Brazil.
2. Field Acquisition Supervisor (FAS).
3. Data QC Supervisor.
4. Technical Auditor of Seismic Crew.
5. Seismic 2D/3C data acquisition consultant for Petra Energia at São Francisco
Basin, Minas Gerais, F. R. of Brazil.
3. Colombia NISCOTA Program and Amazonas SPEC Program 0XXX_2D_AM-T-62
June, 2010 to November, 2010.
Independent Consultant
CGGVeritas.
Responsibilities:
1. Jungle Scouting Specialist (Colombia, Peru, and Brazil.
2. Software Support.
3. QC Training specialist (Colombia Subsidiary).

11. 4. 0295_ANP_2D_PARECIS
February, 2008 to June, 2010
Chief QC and Data Manager
1,472 km of 2D Seismic Acquisition.
Dynamite as Source.
Responsibilities:
1. Seismic Data Manager of Crew #295.
2. Client/Crew Technical Relations.
3. QC Chief of Seismic Crew #295.
4. Acquisition and Processing Specialist of Potential Methods.
5. Project Reporter.
5. 0295_BR_3D_SUL_GUAMARE
August, 2008 to July, 2009
Chief QC and Data Manager
126.290 km² of 3D Seismic Acquisition.
Dynamite as Source.
Responsibilities:
1. Seismic Data Manager of Crew #295.
2. Client/Crew Technical Relations.
3. QC Chief of Seismic Crew #295.
4. Acquisition and Processing Specialist of Potential Methods.
5. Project Reporter.
6. 0295_BR_3D_PALMEIRA-GUAMARE
August, 2008 to May, 2009
Chief QC and Data Manager
80.290 km² of 3D Seismic Acquisition.
Dynamite as Source.
Responsibilities:
1. Seismic Data Manager of Crew #295.
2. Client/Crew Technical Relations.
3. QC Chief of Seismic Crew #295.
4. Acquisition and Processing Specialist of Potential Methods.
5. Project Reporter.
7. 0295_ANP_2D_PARNAÍBA
February, 2008 to July, 2009
Chief QC and Data Manager

12. 1,595.200 km of 2D Seismic Acquisition.
Dynamite as Source.
Responsibilities:
1. Seismic Data Manager of Crew #295.
2. Client/Crew Technical Relations.
3. QC Chief of Seismic Crew #295.
4. Acquisition and Processing Specialist of Potential Methods.
5. Project Reporter.

13. PHOTO GALLERY (2007 TO PRESENT)