RAMZI FARES Architect
Selected Undergraduate College Works & Resume
UNDERGRADUATE
ARCHITECTURE
TABLE OF CONTENTS
Personal Resume • Ramzi Karim Fares • Cover Letter
Page 1-2
Design Studio VI
Design Studio VII
Page 3-11
Page 12-17
• Byblos Music Hall
• Mar Mikhael-Beirut, Hostel
Design Studio VIII
• Mies Van Der Rohe, Farnsworth House Visitor Center International Competition
Page 18-23
Environmental Systems • E-GG Zero Energy Building
Page 24-28
Environmental Systems • LIGHTEMPLE Velux Daylight International Competition
Page 29-34
TABLE OF CONTENTS
Environmental Systems • ONTHEROCKS Water Efficiency, Zero H2O Bldg, Rainwater Collection
Page 35-38
Genetic Algorithms • Breeding Strategies
Page 39-43
Photography
Final Year Project
Page 44-49
Page 50-74
• Image editing using Adobe Lightroom
• Dalieh Beirut UrbanHike Aquarium, FPR, FYP
EDUCATION Oct 2012/May 2017
RESUME
RAMZI FARES
2012
Architect
PROFILE
The Lebanese American University (LAU), Bachelor of Architecture • Dean’s Honor List based on academic achievement – Fall, Spring, Summer 2012/2013/2014/2015/2016/2017 • Merit Scholarship Student (100%) acquired before enrollment • Graduated with distinction Spring 2017
Ramzi Karim Fares
Freelance Architect - Lebanon - Abu Dhabi • 3D Building, Rendering, Drafting, Layouts, Site Supervision... mainly with ACE (Awaida Construction & Engineering) & several small architecture offices in Lebanon, as well as 3D Rendering for ACG in Abu Dhabi
Summer 2016
Intern at “IdeastoReality” Architecture office – Koura - North Lebanon • Calculation of building material quantities • 3D Modeling, Renderings and animations of different projects • Construction site supervision
Summer 2012
Assistant Surveyor in “Beit Misk Project” – Metn - Lebanon • Surveying of all infrastructural design and construction of a completely new village (water networks, roads, electricity, sewage) • Supplying workers during construction with measurements, levels, notes and other technical information
Full Name
NON-PROFESSIONAL WORK EXPERIENCE
Date of Birth
September 5, 1994 Fall/Spring 2015
Address
- Ashrafieh, Beirut, Lebanon - Kfersaroun al Koura, North Lebanon Summer 2010
Nationality Lebanese
Phone Number
2005 - present
+961 71 977 043
ramzi.fares@live.com ramzi.k.fares@gmail.com
SOCIAL MEDIA Ramzi Fares WineUp Bottles
Adobe illustrator, Lightroom, Indesign, Photoshop
Sainte Thérèse School – Amioun El Koura CSSTA, Lebanese Baccalaureate in General Sciences 2012 • School’s Honor Board for academic achievement Grades 6, 7, 8, 9, 10, 11, 12
PROFESSIONAL WORK EXPERIENCE 2017 - present
raam_z wine_upp
SOFTWARE SKILLS
Event phone campaigns at “Sì-Live Communication” – Naccache - Beirut • Management of targeted phone campaigns to invite people to events held by “Sì”, of which VIP charity events for the Lebanese Red Cross Home Piano Teacher • Introductory exercises and classical music sheets for beginners
Autodesk Autocad 2D/3D, Revit, 3Ds MAX, Sketchup
Rhinoceros 2D/3D, Grasshopper
LUMION
Ecotect
Dialux EVO
ORGANIZATIONS 2016/2017 AIAS - American Institute of Architecture Students LAU Chapter • Freedom by Design Director Spring 2016/Spring 2017 2009/present SdL - Scouts du Liban • Group Founder, Chief of Troup and Chief of Clan at the Scouts of Lebanon Association – Sainte Thérèse School
Dental Clinic Nurse • Working with my father who is a dental surgeon and practitioner
LANGUAGES
Sidelines
HOBBIES
Arabic (Mother Tongue)
Classical Piano Student • Mrs. Zvart Sarkissian (Student of Marguerite Long at Paris’ Conservatory) DIY Artist • Upcycling Glass Bottles into decoration items
Camping PHOTOGRAPHY
French English
1
SCOUT Sports DESIGN NATURE PLANT
Hiking
DIYPiano
COVER LETTER
RAMZI FARES Architect
To whom it may concern, I am hereby applying for a fresh-graduate architect position at your esteemed organization; having recently graduated with Distinction from the Lebanese American University (LAU). Upon enrollment at LAU I was granted a Merit Scholarship owing to my scholastic achievements which fully covered my tuition for five years and which I successfully maintained by keeping a GPA above 3.5/4. During that phase, I developed professional abilities & skills mainly in the field of advanced 3D construction, visualization, conceptual & algorithmic design, through specific courses offered at LAU and application in design studios. I am also familiar with on-site work and supervision since I was an assistant surveyor before my enrollment at LAU & through the internships I went through. Lately, not much after graduation, my freelance career kicked off with ACE (Awaida for Construction & Engineering) mainly and other architecture offices. I have gained as much expertise as I could in several aspects of the construction and architecture business and I am aspiring to always acquire more. Therefore, I would appreciate the opportunity to join an interesting and reputable architecture firm such as yours, and immerse myself in the creative and technical responsibilities of the job. Please have a look at my enclosed resume & portfolio for detailed information of my style, work experience and education. Looking forward to discussing more in person. Sincerely,
Ramzi Fares
DATE February 13, 2018
2
PORTFOLIO
DESIGN VI SPRING 2015 PROJECT Title
Byblos MUSICHALL
Instructor
Dr. Stefano Corbo
Location
Byblos - Blat - LAU Parking
Description
Concept: Linking three different types of topographies together. Program: Big Auditorium (500 seats), Small Auditorium (200 seats), Common Backstage, Foyer, Cafeteria, Info Desk, Offices Area, Rooftop Park NB: Not all plans and drawings are shown
3
MASS PLAN
4
AXO
Concept Diagram
1/1000 Model 5
ROOF PLAN
6
GROUND PLAN
7
AUDITORIUMS
8
SECTION 1
9
SECTION 2
10
DETAILS
11
PORTFOLIO
DESIGN VII FALL 2015 PROJECT Title
Mar Mikhael Hostel
Instructor
Dr. Maroun Daccache
Location
Mar Mikhael, Beirut - next to “touch” highway building
Description
Dealing with the boundary between an Urban Fabric rich with public stairs & courtayrds and the coastal highway.
12
PROCESS
Saifi Urban Gardens - courtyards . nature . narrow stairs . platforms . gardens . cafĂŠs . restaurants
13
14
15
16
TYPICAL ROOMS TYPOLOGIES 1
2
3
17
PORTFOLIO
DESIGN VIII SPRING 2016 PROJECT Title
CHRYSALIS Visitor Center
Instructor
Dr. Marwan Basmaji
Location
Fox River, Plano, Illinois USA
Description
Mies Van Der Rohe, Farnsworth House Visitor Center International Comeptition “Preservation as Provocation”
18
COMPETITION CONCEPT BRIEF Mies stated, "Nature, too, shall live its own life. We must beware not to disrupt it with the color of our houses and interior fittings. Yet we should attempt to bring nature, houses, and human beings together into a higher unity." What is missing in usual residential architecture are the "non-essentials" - considering that "the essentials for living are floor and roof. Everything else is proportion and nature." The Farnsworth House, built on an infinite meadow with a variety of trees along the Fox River, was created to offer its inhabitants the chance to experience rural silence and the passing of the seasons. It is not a structure subjugated by common principles of inhabitable architecture. Different people, architects and students visit this famous monument regularly. Viewing nature 19
through its glass walls gains a “more profound significance than if viewed from the outside� since it shows the visitor how nature becomes part of the house itself. But when outside, one is not allowed to experience this play of nature from different levels of perception. Therefore my intervention will offer visitors the chance to stroll around the house from diverse points, angles and views without limiting them to the ground-walk experience. If protection from nature were not imperative, Mies Van Der Rohe would not have even placed glass walls on his facades. But as a visitor center does not offer permanent dwelling, we could consider the elimination of all boundaries between architecture and nature. The intervention would be restricted to temporary functions and the main feature of this visitor center would be to offer a promenade inside the trees volume for a better under20
standing of the play of nature in relation to the platforms and interior of the Farnsworth House. In this sense, “Chrysalis” which is a time of change for a butterfly’s formation - is a network of triangles produced by linking structural trees around the Farnsworth House. Through simply linking one fixed vertex of a triangle (one tree) to two other vertexes (two trees or more), we get to a kind of “anarchic yet elegant” design; a serpent-like structure inside the trees, where visitors tunnel their way to the house from the highest levels of the site. The multi-triangular divisions of “Chrysalis” allow for a very dynamic program. From one side, closed butterfly-origami-like volumes serve as hosts for the information desk, ticketing office, gift shop and the multi-purpose room. And the raw exposed wooden platforms carry the visitors along another 21
level of promenade inside the trees bulk, while protecting them from any flooding and serving as piers for boats when needed. To conclude, let’s imagine how one person may be standing, alone, on the pointy tip of a platform inside this natural setting, feeling totally isolated from the Center, the people and everything else. “Chrysalis� will be overlooking the house from behind the line of trees that form its natural courtyard, leaving the visitor with a fulfilling sense of peaceful solitude.
22
23
PORTFOLIO
Environmental Systems . SPRING 2016 PROJECT 1 Title
E-GG
Instructor
Dr. Toufic Haidamous
Location Virtual
Description
. Zero Energy Living Unit . Zero CO2 Emission . Zero $ Energy Bill . Study on before & after PV Panels Appliance . Study on One Unit before & after expansion towards the second level, & Study on a Cluster of 5 Units . All Calcualtions were conducted on professional excel charts
24
25
26
27
28
PORTFOLIO
Environmental Systems . SPRING 2016 PROJECT 2 Title
LIGHTEMPLE
Instructor
Dr. Toufic Haidamous
Location Virtual
Description
. Velux Daylight International Competition 2016 (Architecture for Health & Wellbeing) . Shadow/Light Analysis . Artificial Lighting Design . Software Used: Ecotect, Dialux Evo, Rhinoceros, 3Ds Max.
29
30
1 OCT 8:00
SIDE View FRONT View
TOP View
AXONOMETRIC View
1 OCT 12:00
Case 2: All sides closed
Case 1: One side open
1 OCT 15:00
SHADOW RANGE 8:00
- 14:00
31
Power Plan 1/500
Wiring Plan 1/500 Light mounted on the ground Wal mounted single pole light switch
1/500
Waterproof Wall Mounted Single Phase Socket Outlet Rated 16A/250V
Philips Lighting RC466B W31L125 5000 /- 1xLED80S/TWH/- / Luminaire data sheet (1xLED80S/TWH/-) (Software used for these diagrams and analysis: Dialux Evo)
32
REAL MODEL LIGHT PROPAGATION PICTURES OCT1 6:00
OCT1 9:00
OCT1 10:00
7 APRIL 6 : 0 0
7 A PRIL 8 : 0 0
7 AP R IL
1 0 : 0 0 OCT1 12:00
OCT1 13:00
OCT1 14:00
7 APRIL 1 2 : 0 0
7 A PRIL 1 4 : 0 0
33
7 AP R IL
1 6 : 0 0
OCT1 16:00
Competition Board
Brief
...“LIGHTEMPLE” allows the visitor to meditate in a space where the movement of the sun is represented by projecting the flame ribs of the temple on the wall of the altar facing the visitors. “The ever changing path of the sun” is therefore established on a white canvas, where all light strips have the same silhouette as the wall and the temple as a whole. When the sun reaches the highest point in the sky during the day at noon, it becomes perpendicular to the surface of the ribs and thus the altar’s wall will be totally lit since it is a bit recessed from the first flame-rib. This effect represents the culmination of the sun’s trajectory and the journey it takes, where it is at its uppermost station being stronger and more intense than any other time of the day. If a camera takes a video of the moving sun rays on the altar’s background, and then the film is put on fast motion, the wall will look like a scintillating blaze portraying the mysterious silent yet vivacious movement of fire...
34
PORTFOLIO
Environmental Systems . SUMMER 2016
PROJECT 3 Title
ONTHEROCKS
Instructor
Dr. Toufic Haidamous
Location Virtual
Description
. Zero H2O Building . Water Efficiency . Rainwater Collection . Grey & Black Water Treatment
35
Study on one of the blocks
Voronoid tiling for channeling water into the pond
Tilted roofs that pour water into the pond
Tilted walls for a bigger catchment surface and passive tunneling to the pond
MASS PLAN
36
FILTER PERFORATED PIPE
NON POTABLE TANK 65m POTABLE TANK 65m3
3
CALCULATIONS TABLE TOTAL CAPTURED RAINWATER IRRIGATION DEMAND WASTE WATER REUSABLE (٪٧٠ from wc + cleaning + personal hygiene + dishwasher) PURIFIED RAIN WATER DEMAND FOR POTABLE NEEDS RAIN WATER DEMAND FOR NON POTABLE NEEDS
[m3H2O/y] 968.21 132.00
613.10
508.98
WATERWORKS WATER DEMAND FOR POTABLE AND NON POTABLE NEEDS WATERWORKS WATER DEMAND FOR IRRIGATION NEEDS WATERWORKS WATER DEMAND SURPLUS OF CAPTURED RAINWATER
SURPLUS OF WASTE 456.60 WATER
PAVER UNITS 2’’ BEDDING 4’’ BASE 12’’ SUBBASE MIN
ONTHEROCKS USE OF RECYCLED WASTEWATER FOR IRRIGATION USE OF WATER FROM THE WATER MAIN IN CASES OF DRYNESS USE OF CAPTURED RAINWATER FOR POTABLE AND NON POTABLE NEEDS
1 RAIN WATER
CLEANING 3.5%
2 WATER USES
DRINKING 8.17%
FILTER
0.00
WC 32.03%
Monthly water collec�on/consump�on 250
IRRIGATION 12.03%
200
0.00
HYGIENE 36.11%
150
3 GREY WATER
100
0.00
DISHWASHER 4.15%
50 0
4
2.63 Monthly Captured Rainwater
Monthly used water
481.10
IRRIGATION NETWORK PERCENTAGE OF WATER DEMAND
37
38
PORTFOLIO
Genetic Algorithms SUMMER 2016 PROJECT
B
THE PYRAMID
F
The geometric primitive we picked was a pyramid. We cut off the top of the pyramid and divided it into four sections, we obtained two pairs of similar solids with two different scales.
C
G
A
A
E
E
H
H
D
D
Title
Generations Breeding Strategies
Instructor
Mr. Camille Saad
Description
A genetic algorithm is a search which means an algorithm that retrieves information stored within some data structure. It mimics the process of natural selection, it simulates the survival of the fittest among individuals over consecutive generations to solve a problem. Genetic Algorithms are used to solve optimization problems (the selection of a best element based on certain criteria from some set of available alternatives).After an initial population is randomly generated, the algorithm evolves the through three operators: selection (the survival of the fittest), crossover (mating between individuals); mutation (introduces random modifications).
Purpose
Introduction to the basis of how certain algorithmic software work
39
B F
G
C
G1
G2
BREEDING STRATEGY
GENERATION 2
During the selection process a breeding strategy refers to the reason why individual genomes are chosen for later breeding. The goal is to obtain the fittest generation possible.
We decided to keep the same breeding strategy to see if a second generation would induce a change in the genome. Result: fit x fit = fit Average x average = average Fit x Hopeful monster= hopeful monster
GENERATION1 We decided experiment by combining the best individual of the population with other individuals presenting a favorable genome as well as with “hopeful monster”. Also we tried combining average breed together. Result: fit x fit = fit Average x average = average Fit x Hopeful monster= hopeful monster G١٫١ PA(٢٣,G,XZ,F) S٢D(١٫٣٥,ZY,AE,T) C(١٧,C,YZ,T)
AREA VOLUME A RANK V RANK A/V Average A+V Final Rank
AREA ٧٨٠٠٦ ٤٥٠٣٨ ٤٤٧٠٦ ٣٥٩٧٨ ٢٣٦٧٦ ٢٣٠٨١ ١١٣١٧ ١٠٠٠٤ ٩١٥٩ ٨٧٣٥
G١٫٢ MR(E,GC,F) MO(١١,H,Z,T)
G١٫٣ R(٣٠,D,T) S٢D(١٫٣٥,ZY,AE,T)
A(٦ ,٥,٩,٣,١٠,١٢F)
C(١٧,C,YZ,T)
G١٫٤ MR(C,Y,F) S(.٩,E,T) C(١٥,B,Z,T) MO(٥,E,Y,F) S١D(١٫١,A,X,T)
G١٫٥ MR(E,ZY,T) A(١,٢,٣,٤,٥) MO(٥,Y,T) PA(A,٣٩,٣٦٠,F)
G١٫٦ S٢D(١٫٣٥,ZY,AE,T) PA(٥٢,B,Z,T)
G١٫٧
G١٫٨ MR(C,Y,F)
S١D(A,١٫٣٥,X,T)
G١٫٩ C(١٧,C,YZ,T) MO(١١,H,Z,T) S(٢,A,F) R(٣٠,D,T) MR(C,EF,F)
G١٫١٠ S(.٩,E,T)
G٢٫١
G٢٫٩ G٢٫١٠ MR(C,Y,F) PA(٥٢,B,Z,T) S١D(A,١٫٣٥,X,T) R(١٤,F,DC,T) C(١٧,C,YZ,T) C(١٧,C,YZ,T) C(١٧,C,YZ,T) C(١٧,C,YZ,T) C(١٧,C,YZ,T) C(١٧,C,YZ,T) C(١٧,C,YZ,T) MR(E,GC,F) C(١٧,C,YZ,T) A(٥,٣,٧,٩,٤,٦,F) MR(C,EF,F) A(٢,٢,٣,٥,٦,٤,F) MO(٥,E,Y,F) R(٣٠,D,T) MR(C,EF,F) MO(١١,H,Z,T) R(١٤,F,ZY,T) MO(٥,E,Y,F) S٢D(١٫٣٥,A,XY,T) S١D(١٫١,A,X,T) MR(E,GC,F) MR(C,EF,F) MO(١١,H,Z,F) MO(١١,H,Z,F) MO(١١,H,Z,F) MO(١١,H,Z,F) MO(١١,H,Z,F) MO(١١,H,Z,F) S٢D(١٫٣٥,ZY,AE,T) C(١٧,C,YZ,T) R٣D(٢٣,D,XY,T) MO(١١,H,Z,F) PA(٣٩,A,AC,F) S(٢,A,F) R(٣٠,D,T) R(٣٠,D,T) S(.٩,E,T) S(٢,A,F) S(٢٫٣٥,A,T) S(.٣,E,T) S(.٣,E,T) S(.٣,E,T) S(.٣,E,T) S(.٣,E,T) S(.٣,E,T) MO(١١,H,Z,T) MR(C,EF,F) S(.٣,E,T) AREA ٧٣٤٢ ٢٦٢٩٢ ٨٢٧٩ ٩٤٩٩ ٨٠١٤ ١٠٩٤٠ ٨٦٥٣ ٢١٥٦٨ ٢٩٧٤٧ ١٠٠٠٤ VOLUME ٣١١٤٠ ١٦٧٧٧١ ٣٣٠٤٠ ٤٢١٥١ ٢٤٦٤٨ ٤٥٢٠٩ ٣٨٦٨٣ ٨٩٩٩٥ ١٣٩٣٢٩ ٣٩٠٩٦ A RANK ١ ٩ ٣ ٥ ٢ ٧ ٤ ٨ ١٠ ٦ V RANK ٩ ١ ٨ ٥ ١٠ ٤ ٧ ٣ ٢ ٦ A/V ٠٫٢٣٥٧٧٣٩٢٤ ٠٫١٥٦٧١٣٦١٦ ٠٫٢٥٠٥٧٥٠٦١ ٠٫٢٢٥٣٥٦٤٥٧ ٠٫٣٢٥١٣٧٩٤٢ ٠٫٢٤١٩٨٧٢١٥ ٠٫٢٢٣٦٨٩٩٩٣ ٠٫٢٣٩٦٥٧٧٥٩ ٠٫٢١٣٥٠١٨٥٥ ٠٫٢٥٥٨٨٢٩٥٥ Average A+V ٥ ٥ ٥٫٥ ٥ ٦ ٥٫٥ ٥٫٥ ٥٫٥ ٦ ٦ Final Rank ٨ ١٠ ٤ ٩ ١ ٥ ٧ ٦ ٣ ٢
R(١٤,F,DC,T) C(١٧,C,YZ,T) S(١٫٧٥,D,F) C(١٧,C,YZ,T) MR(E,GC,F) MO(١١,H,Z,T) MO(١١,H,Z,T) R(١٤,F,ZY,T) A(٥,٣,٧,٩,٤,٦,F) A(٢,٢,٣,٥,٦,٤,F) MO(٥,E,Y,F) R(٣٠,D,T) MR(C,EF,F) S٢D(١٫٣٥,A,XY,T) MR(C,EF,F) S٢D(١٫٣٥,ZY,AE,T) MR(C,X,T) S١D(١٫٣٥,A,X,T) MO(١١,H,Z,F) R٣D(٢٣,D,XY,T) MO(١١,H,Z,T) PA(٣٩,A,AC,F) R(٣٠,D,T) S(.٩,E,T) S(٢٫٣٥,A,T) S(٢,A,F) R(٣٠,D,T) R(٣٠,D,z,T) S(٢,A,F) C(١١,H,Z,T) R٣D(٢٣,D,XY,T) S(.٣,E,T) MR(C,EF,F) A(XZ,AF,٥,٩,٣,F) MR(C,X,F) ٢٣٠٨١ ٤٥٠٣٨ ١١٣١٧ ٨٧٣٥ ٧٨٠٠٦ ٤٤٧٠٦ ١٠٠٠٤ ٢٣٦٧٦ ٣٥٩٧٨ ٩١٥٩ ٩٩٥٤٧ ٢٩٣٥٥٤ ٤٧٧٦٣ ٢٧٤٢٤ ٧١٧٩٣٤ ٢٦٨٢٦٧ ٣٩٠٩٦ ١٣٤٤٥٣ ٢١٧٧٦١ ٤٢٢٩٧ ٥ ٩ ٤ ١ ١٠ ٨ ٣ ٦ ٧ ٢ ٦ ٢ ٧ ١٠ ١ ٣ ٩ ٥ ٤ ٨ ٠٫٢٣١٨٦٠٣٢٧ ٠٫١٥٣٤٢٣٢٢ ٠٫٢٣٦٩٤٠٧٢٨ ٠٫٣١٨٥١٦٦٢٨ ٠٫١٠٨٦٥٣٤٤٢ ٠٫١٦٦٦٤٧٤٠٧ ٠٫٢٥٥٨٨٢٩٥٥ ٠٫١٧٦٠٩١٢٧٤ ٠٫١٦٥٢١٧٨٣١ ٠٫٢١٦٥٤٠١٨ ٥٫٥ ٥٫٥ ٥٫٥ ٥٫٥ ٥٫٥ ٥٫٥ ٦ ٥٫٥ ٥٫٥ ٥ ٤ ٨ ٣ ٢ ٩ ٦ ١ ٥ ٧ ١٠
R(٣٠,D,T) MR(E,GC,F) C(١٧,C,YZ,T) S(.٩,E,T) MO(١١,H,Z,T)
Average ٢٨٩٧٠
Standard Deviation ٢٢٣٤٩٫٢٩٥١٦
Normal Distance ١٫٦٠٨٠٨E٠٦١٫٣٧٨٥E٠٥١٫٣٩٣١٤E٠٥١٫٦٩٩٤E٠٥١٫٧٣٥٦٥E٠٥١٫٧٢٤١٣E٠٥١٫٣٠٦٦٨E٠٥١٫٢٤٥٢٨E٠٥١٫٢٠٥١E٠٥١٫١٨٤٧٩E٠٥-
AREA
0.00002
VOLUME ٧١٧٩٣٤ ٢٩٣٥٥٤ ٢٦٨٢٦٧ ٢١٧٧٦١ ١٣٤٤٥٣ ٩٩٥٤٧ ٤٧٧٦٣ ٤٢٢٩٧ ٣٩٠٩٦ ٢٧٤٢٤
Average ١٨٨٨٠٩٫٦
Standard Deviation ٢١٠٥١١٫٩٩٣
A/V ٠٫٣١٨٥١٦٦٣ ٠٫٢٥٥٨٨٢٩٥ ٠٫٢٣٦٩٤٠٧٣ ٠٫٢٣١٨٦٠٣٣ ٠٫٢١٦٥٤٠١٨ ٠٫١٧٦٠٩١٢٧ ٠٫١٦٦٦٤٧٤١ ٠٫١٦٥٢١٧٨٣ ٠٫١٥٣٤٢٣٢٢ ٠٫١٠٨٦٥٣٤٤
Normal Distance ٨٫٠٤٩٢E٠٨١٫٦٧٤٤٥E٠٦١٫٧٦٤٨١E٠٦١٫٨٧٧٢٧E٠٦١٫٨٣٢٩٧E٠٦١٫٧٣٢١٧E٠٦١٫٥١٤٠٩E٠٦١٫٤٨٧٤٧E٠٦١٫٤٧١٦٤E٠٦١٫٤١٢٥٧E٠٦-
VOLUME
0.000002
Standard Deviation ٠٫٠٦٠٦٨٢٣٥٥
AREA
Normal Distance ١٫٠٧٣١٠٣٦٠٧ ٤٫٤٩٥٦٣٨٣٨٢ ٥٫٦٢١١٥٤٨٤١ ٥٫٨٧٠٢١٠٣٥٧ ٦٫٤١٢٠٩٨٧٨٩ ٥٫٩٥٩٦٤٦٨٥٣ ٥٫٤٩٥٦٠٢٣٧ ٥٫٤١٧١٣١٩٩٥ ٤٫٧١٠٢١٢٢٧٩ ١٫٩٦٤٢٣٣١٤٨
A/V
7
0.0000018
0.000018
Average ٠٫٢٠٢٩٧٧٣٩٩
0 0
0 10000
20000
30000
40000
50000
60000
70000
80000
90000
G1.4
G1.3
G1.1
G٢٫٧ R(٣٠,D,T) R(٣٠,D,T)
Average Standard Deviation Normal Distance ٦٥١٠٦٫٢ ٥٠٣١٥٫٥٦٣٣٢ ٩٫٨٨٩١١E٠٧٢٫٦٧١٠٦E٠٦٧٫٠١٥٧٧E٠٦٧٫٣٣٢٤٧E٠٦٧٫١٤٥١٤E٠٦٦٫٩٣٧١٣E٠٦٦٫٩٠٧٥٢E٠٦٦٫٤٧١٦١E٠٦٦٫٣١٣٢٣E٠٦٥٫٧٣٨٦٤E٠٦-
VOLUME
0 0
100000
200000
300000
400000
500000
600000
700000
800000
0.05
0.1
0.15
0.2
G1
G1.8
G1.6
G1.9
0.25
0.3
0.35
0
G1.5
0.000004
6
0.000003
4
0.000002 2 0.000001
0
10000
20000
30000
40000
50000
60000
70000
80000
90000
0
0 0
100000
200000
300000
400000
G1 G2
G1.10
40
A/V
10
8
G1
G1.2
A/V Average Standard Deviation Normal Distance ٠٫٣٢٥١٣٧٩٤٢ ٠٫٢٣٦٨٢٧٦٧٨ ٠٫٠٤١٧٠٤٠٩٣ ١٫٠١٦٣٥٢٧٦٨ ٠٫٢٥٥٨٨٢٩٥٥ ٨٫٦١٧٨١٢٢٣ ٠٫٢٥٠٥٧٥٠٦١ ٩٫٠٦٠١٥١٥٦١ ٠٫٢٤١٩٨٧٢١٥ ٩٫٤٩٣٠٩٢٥٣٢ ٠٫٢٣٩٦٥٧٧٥٩ ٩٫٥٤٤٠٢١٣١٦ ٠٫٢٣٥٧٧٣٩٢٤ ٩٫٥٦٢٩٦٩١٠٩ ٠٫٢٢٥٣٥٦٤٥٧ ٩٫٢١٠٩٠٢٦٩٨ ٠٫٢٢٣٦٨٩٩٩٣ ٩٫١٠٢٩٤٧٠٤٦ ٠٫٢١٣٥٠١٨٥٥ ٨٫١٨٠٨٧٨٤١٩ ٠٫١٥٦٧١٣٦١٦ ١٫٥١١٤٥٦٧٩
0.000005
0.000005 0
G٢٫٨ PA(٢٣,G,XZ,F) MO(١١,H,Z,T) C(١٧,C,YZ,T)
12
0.00001
1
G1
G1.7
S٢D(١٫٣٥,ZY,AE,T)
0.000006
0.000015
0.0000002
0.000002
G٢٫٦
0.000007
0.00002 2
0.0000004
0.000004
G٢٫٥
MR(C,Y,F)
0.000008
0.000025
3
0.0000006
0.000006
AREA
0.00003
0.0000008
0.000008
VOLUME ١٦٧٧٧١ ١٣٩٣٢٩ ٨٩٩٩٥ ٤٥٢٠٩ ٤٢١٥١ ٣٩٠٩٦ ٣٨٦٨٣ ٣٣٠٤٠ ٣١١٤٠ ٢٤٦٤٨
Average Standard Deviation Normal Distance ١٤٠٣٣٫٨ ٨٤٥٥٫٠٨٧٢٢٣ ٨٫٣٩١٠٤E٠٦١٫٦٤٩٥٥E٠٥٣٫١٧٢٢٧E٠٥٤٫٤١٢٨٤E٠٥٤٫٢١١٧٧E٠٥٤٫٠٨٦٢٧E٠٥٣٫٨٥٣٤٢E٠٥٣٫٧٤٢٨E٠٥٣٫٦٦٢E٠٥٣٫٤٤٩٦٢E٠٥-
0.000035
4
0.000001
0.00001
G٢٫٤
0.00004
0.0000012
0.000012
٢٩٧٤٧ ٢٦٢٩٢ ٢١٥٦٨ ١٠٩٤٠ ١٠٠٠٤ ٩٤٩٩ ٨٦٥٣ ٨٢٧٩ ٨٠١٤ ٧٣٤٢
0.00005
5
0.0000014
0.000014
G٢٫٣
MO(١١,H,Z,T)
0.000045
6
0.0000016
0.000016
G٢٫٢
S٢D(١٫٣٥,ZY,AE,T)
500000
600000
700000
800000
0
0.05
0.1
0.15
0.2
G1 G2
0.25
0.3
0.35 G1 G2
G1.7
G1.4
G1.3
G1.1
G1.8
G1.6
G1.9
G1.2
G1.5
G1.10
G2.5
G2.10
G2.9
G2.3
G2.6
G2.8
G2.7
G2.1
G2.4
G2.2
G3
G4
GENERATION 3
GENERATION 4
We decided to change the breeding strategy and breed the fittest individuals together since combining them gave us even better individuals. Also, since breeding the fittest individuals with the weakest gave us weak individuals, we decided to try breeding hopeful monsters together, as a last resort, so that maybe we would obtain individuals that present a fitter genome. Since breeding average individuals together didn’t produce fit individuals we decided to kill two average individuals. NB: We introduced a mutation by inversion in the second fittest individual. Result: fit x fit = fit Hopeful monsters x Hopeful monster= hopeful monster
Since breeding hopeful monsters together didn’t lead to the production of fit individuals, we decided to kill them. We combined the fittest individuals with other individuals to get the fittest generation possible.
G٣٫١
G٣٫٢
G٣٫٣
G٣٫٤
G٣٫٥
S١D(A,١٫٣٥,X,T)
PA(٥٢,B,Z,T)
S(.٣,E,T)
S٢D(١٫٣٥,ZY,AE,T)
R(٣٠,D,T)
C(١٧,C,YZ,T) R(١٤,F,ZY,T)
C(١٧,C,YZ,T) MO(١١,H,Z,T) MR(C,EF,F) MO(١١,H,Z,F) S(٢٫٣٥,A,T) S(.٣,E,T)
C(١٧,C,YZ,T) MR(C,EF,F)
C(١٧,C,YZ,T) R(٣٠,D,T) MR(E,GC,F) MO(١١,H,Z,F) S(.٩,E,T) S(.٣,E,T)
C(١٧,C,YZ,T)
MO(١١,H,Z,F)
AREA VOLUME A RANK V RANK A/V Average A+V Final Rank
S(.٣,E,T)
٦٩٥٢ ٢٥٣١٠ ٨ ٦ ٠٫٢٧٤٦٧٤٠٤٢ ٧ ٤
٢٤٥١٥ ١٠٥٤٥ ١ ١٠ ٢٫٣٢٤٧٩٨٤٨٣ ٥٫٥ ٥
MO(١١,H,Z,F) S(٢,A,F) S(.٣,E,T)
٥٣٠٧ ١٥٩٨٣ ١٠ ٩ ٠٫٣٣٢٠٤٠٢٩٣ ٩٫٥ ١
G٣٫٦
C(١٧,C,YZ,T) A(٥,٣,٧,٩,٤,٦,F)
G٣٫٧ MR(C,Y,F) S٢D(١٫٣٥,ZY,AE,T) R(١٤,F,DC,T) MR(E,GC,F)
G٤٫١
G٤٫٢
G٤٫٣
G٤٫٤
G٤٫٥
G٤٫٦
G٤٫٧
G٣٫٨
G٣٫٩
G٣٫١٠
R(٣٠,D,T)
MR(C,Y,F)
S١D(A,١٫٣٥,X,T)
PA(٥٢,B,Z,T)
MR(C,Y,F)
S١D(A,١٫٣٥,X,T)
PA(٥٢,B,Z,T)
R(٣٠,D,T)
MO(١١,H,Z,T) C(١٧,C,YZ,T)
MR(C,Y,F)
C(١٧,C,Z,T)
C(١٧,C,Z,T) MO(٥,E,Y,F) S١D(١٫١,A,X,T) MO(١١,H,Z,F) R(٣٠,D,T) S(.٣,E,T)
C(١٧,C,Z,T) R(١٤,F,ZY,T)
C(١٧,C,Z,T) MO(١١,H,Z,T) MR(C,EF,F) MO(١١,H,Z,F) S(٢٫٣٥,A,T) S(.٣,E,T)
C(١٧,C,Z,T) MO(٥,E,Y,F) S١D(١٫١,A,X,T) S(.٣,E,T) R(٣٠,D,T) MO(١١,H,Z,F)
C(١٧,C,Z,T) R(١٤,F,ZY,T)
C(١٧,C,Z,T) MO(١١,H,Z,T) MR(C,EF,F) S(.٣,E,T) S(٢٫٣٥,A,T) MO(١١,H,Z,F)
C(١٧,C,YZ,T) C(١٧,C,YZ,T) MR(C,EF,F) MO(٥,E,Y,F) MO(٥,E,Y,F) S١D(١٫١,A,X,T) MO(١١,H,Z,F) MO(١١,H,Z,F) R٣D(٢٣,D,XY,T) MO(١١,H,Z,F) MO(١١,H,Z,F) MO(١١,H,Z,F) PA(٣٩,A,AC,F) S(٢,A,F) R(٣٠,D,T) S(.٣,E,T) S(.٣,E,T) MR(C,EF,F) S(.٣,E,T) S(.٣,E,T) S(.٣,E,T) ١٠٩٤٠ ٦٤٧٤ ٢٣٤٦١ ١٠٣٧١ ٨٢٣٠ ٢١٢٨٦ ٨٠١٤ ٤٥٢٠٩ ٢٤٨١٤ ١٧٠٣٤٦ ٣١٩٢٧ ٣٦٠٧٤ ١٥٠٧٥٨ ٢٤٦٤٨ ٤ ٩ ٢ ٥ ٦ ٣ ٧ ٣ ٧ ١ ٥ ٤ ٢ ٨ ٠٫٢٤١٩٨٧٢١٥ ٠٫٢٦٠٩٠١١٠٤ ٠٫١٣٧٧٢٥٥٧ ٠٫٣٢٤٨٣٤٧٧٩ ٠٫٢٢٨١٤٢١٥٢ ٠٫١٤١١٩٣١٧١ ٠٫٣٢٥١٣٧٩٤٢ ٣٫٥ ٨ ١٫٥ ٥ ٥ ٢٫٥ ٧٫٥ ٨ ٢ ١٠ ٦ ٧ ٩ ٣
BIOLOGICAL DEFINITION
G٣٫٥
A mutation is a sudden departure from the parent type in one or more heritable characteristics, caused by a change in a gene or a chromosome.
R(٣٠,D,T)
DEFINITION IN RELATION TO GENETIC ALGORITHMS With some low probability, a portion of the new individuals will have some of their bits flipped. Its purpose is to maintain diversity within the population and inhibit premature convergence. Mutation alone induces a random walk through the search space ٢٤٥١٥ ٢٣٤٦١ ٢١٢٨٦ ١٠٩٤٠ ١٠٣٧١ ٨٢٣٠ ٨٠١٤ ٦٩٥٢ ٦٤٧٤ ٥٣٠٧
AREA VOLUME A RANK V RANK A/V Average A+V Final Rank
S(.٣,E,T)
٦٤٧٤ ٢٤٨١٤ ٩ ٧ ٠٫٢٦٠٩٠١١٠٤ ٨ ٢
MO(١١,H,Z,F)
٧٧٤١ ٢٣٩٦٢ ٧ ٩ ٠٫٣٢٣٠٥٣١٦٨ ٨ ٣
S(.٣,E,T)
٧٢٨٢ ٢٨٢٩٠ ٨ ٦ ٠٫٢٥٧٤٠٥٤٤٤ ٧ ٤
٢٤٠٨٨ ١٠٨٧٧٢ ٢ ٢ ٠٫٢٢١٤٥٤٠٥١ ٢ ٩
S(.٣,E,T)
٨٠٥٤ ٢٤٥٧٩ ٦ ٨ ٠٫٣٢٧٦٧٨٠٩٩ ٧ ٥
MO(١١,H,Z,F)
٨٠٧٣ ٣٠٩٤٣ ٥ ٥ ٠٫٢٦٠٨٩٩٠٧٢ ٥ ٦
٨٦٥٣ ٣٨٦٨٣ ٤ ٤ ٠٫٢٢٣٦٨٩٩٩٣ ٤ ٧
G٤٫٩
C(١٧,C,Z,T) A(٥,٣,٧,٩,٤,٦,F)
A(٥,٣,٧,٩,٤,٦,F)
MO(١١,H,Z,F)
MO(١١,H,Z,F)
S(.٣,E,T)
S(.٣,E,T)
٢١٥٦٨ ٨٩٩٩٥ ٣ ٣ ٠٫٢٣٩٦٥٧٧٥٩ ٣ ٨
G٤٫١٠ S(.٣,E,T)
C(١٧,C,Z,T)
٢٩٧٤٧ ١٣٩٣٢٩ ١ ١ ٠٫٢١٣٥٠١٨٥٥ ١ ١٠
C(١٧,C,YZ,T) MR(C,EF,F) MO(١١,H,Z,F) S(٢,A,F) S(.٣,E,T)
٥٣٠٧ ١٥٩٨٣ ١٠ ١٠ ٠٫٣٣٢٠٤٠٢٩٣ ١٠ ١
Mutation by inversion
MUTATIONS
AREA
MO(١١,H,Z,F)
G٤٫٨
Average ١٢٥٥٥
Standard Deviation Normal Distance ٧٤٩٦٫٨٣٥٣١٨ ١٫٤٩٠٦٣E٠٥١٫٨٤٧٠٨E٠٥٢٫٧٠٠٨٧E٠٥٥٫١٩٩٤٢E٠٥٥٫١٠٠٣٩E٠٥٤٫٥٠٥٦٨E٠٥٤٫٤٢٩٥٦E٠٥٤٫٠٢٤٧٤E٠٥٣٫٨٢٩٦٦E٠٥٣٫٣٣٤٧٣E٠٥-
AREA
0.00006
VOLUME ١٧٠٣٤٦ ١٥٠٧٥٨ ٤٥٢٠٩ ٣٦٠٧٤ ٣١٩٢٧ ٢٥٣١٠ ٢٤٨١٤ ٢٤٦٤٨ ١٥٩٨٣ ١٠٥٤٥
Average ٥٣٥٦١٫٤
A/V ٢٫٣٢٤٧٩٨٤٨ ٠٫٣٣٢٠٤٠٢٩ ٠٫٣٢٥١٣٧٩٤ ٠٫٣٢٤٨٣٤٧٨ ٠٫٢٧٤٦٧٤٠٤ ٠٫٢٦٠٩٠١١ ٠٫٢٤١٩٨٧٢١ ٠٫٢٢٨١٤٢١٥ ٠٫١٤١١٩٣١٧ ٠٫١٣٧٧٢٥٥٧
Standard Deviation Normal Distance ٥٧٣٩٩٫٦٩٧٠٤ ٨٫٧٧٢٢٥E٠٧١٫٦٥٧١٤E٠٦٦٫٨٧٧٠٦E٠٦٦٫٦٣٥٠٧E٠٦٦٫٤٧٣٧E٠٦٦٫١٥٧٣٩E٠٦٦٫١٣١٠٣E٠٦٦٫١٢٢١٣E٠٦٥٫٦٠٩٥٨E٠٦٥٫٢٤٨٦١E٠٦-
VOLUME
0.000008
C(١٧,C,YZ,T)
MO(١١,H,Z,F) S(.٣,E,T) Standard Deviation Normal Distance ٠٫٦٥٩٢١٤١٣٣ ٠٫٠١١٠٣١٢٧٥ ٠٫٥٩٤٠٣٣٥٠٧ ٠٫٥٩٢٨٠٢٩٦٦ ٠٫٥٩٢٧٤٧٤٨٨ ٠٫٥٨١٩٤١٨٥٥ ٠٫٥٧٨٤٢٣١٨٣ ٠٫٥٧٣٢١٧٨٦٨ ٠٫٥٦٩١٤٠١٨٨ ٠٫٥٣٨٧٢٦٨٥١ ٠٫٥٣٧٣٥٤٣٥٣
٢٩٧٤٧ ٢٤٠٨٨ ٢١٥٦٨ ٨٦٥٣ ٨٠٧٣ ٨٠٥٤ ٧٧٤١ ٧٢٨٢ ٦٤٧٤ ٥٣٠٧
Average ١٢٦٩٨٫٧
Standard Deviation Normal Distance ٨٨٥٤٫٧٩٦٢١٥ ٧٫٠٥٩٩١E٠٦١٫٩٧٠٠٩E٠٥٢٫٧٢٨١٨E٠٥٤٫٠٥٨٨٤E٠٥٣٫٩٣٠٧٣E٠٥٣٫٩٢٦٣١E٠٥٣٫٨٥١٧٨E٠٥٣٫٧٣٦٥٧E٠٥٣٫٥١٩٠٣E٠٥٣٫١٧٩٩١E٠٥-
AREA
0.00006
VOLUME ١٣٩٣٢٩ ١٠٨٧٧٢ ٨٩٩٩٥ ٣٨٦٨٣ ٣٠٩٤٣ ٢٨٢٩٠ ٢٤٨١٤ ٢٤٥٧٩ ٢٣٩٦٢
Average ٥٢٥٣٥
Standard Deviation Normal Distance ٤٣٥٢١٫٩٢٢٢ ١٫٢٥٤٨٥E٠٦٣٫٩٧٧٧٧E٠٦٦٫٣٢٨٩٦E٠٦٨٫٧١٣٧٥E٠٦٨٫١٠٥٠٤E٠٦٧٫٨٤٨٩٩E٠٦٧٫٤٨٣٥٢E٠٦٧٫٤٥٧٧٢E٠٦٧٫٣٨٩٣٧E٠٦-
VOLUME
0.00001
A/V ٠٫٣٣٢٠٤٠٢٩٣ ٠٫٣٢٧٦٧٨٠٩٩ ٠٫٣٢٣٠٥٣١٦٨ ٠٫٢٦٠٩٠١١٠٤ ٠٫٢٦٠٨٩٩٠٧٢ ٠٫٢٥٧٤٠٥٤٤٤ ٠٫٢٣٩٦٥٧٧٥٩ ٠٫٢٢٣٦٨٩٩٩٣ ٠٫٢٢١٤٥٤٠٥١ ٠٫٢١٣٥٠١٨٥٥
Average ٠٫٢٦٦٠٢٨٠٨٤
Standard Deviation Normal Distance ٠٫٠٤٥٦٦٨٩٧٣ ٣٫٠٧٣٢٤٨٠٨٨ ٣٫٥١٢١٨٧٩٤٤ ٤٫٠٠٦١٠٧٠٦٣ ٨٫٦٨٠٦٤٦٤٧٧ ٨٫٦٨٠٦٠٣١١٤ ٨٫٥٨١١٩٧٦٠٩ ٧٫٣٩٤١٤٧٥٩٦ ٥٫٦٨٤١٠٢٠٧ ٥٫٤٢٥٣٦٨١٩٧ ٤٫٥٠٨٥٤١٠٤
A/V
12
0.000009 0.00005
10
0.000008 0.000007
0.00004
8
0.000006 6
0.000005
0.00003
0.000004 0.00002
A/V
12
4
0.000003 0.000002
0.00001
2
0.000001 0
0.000007
0.00005
Average ٠٫٤٥٩١٤٣٤٧٥
AREA
10
0 0
10000
20000
30000
40000
50000
60000
70000
80000
90000
0 0
100000
200000
300000
400000
G1 G2 G3 G4
500000
600000
700000
800000
0
0.5
1
1.5
G1 G2 G3 G4
2
2.5 G1 G2 G3 G4
0.000006 8
0.00004
0.000005 6
0.000004
0.00003
0.000003
0.00002
4
0.000002 0.00001
0
2
0.000001 0 0
10000
20000
30000
40000
50000
60000
70000
80000
90000
0 0
100000
200000
300000
400000
G1 G2 G3
500000
600000
700000
800000
0
0.5
1
G1 G2 G3
1.5
2
2.5 G1 G2 G3
G2.5
G2.10
G2.9
G2.3
G2.6
G2.8
G2.7
G2.1
G2.4
G2.2
G3.3
G3.5
G3.10
G3.1
G3.2
G3.7
G3.8
G3.4
G3.9
G3.6
G3.3
G3.5
G3.10
G3.1
G3.2
G3.7
G3.8
G3.4
G3.9
G3.6
G4.10
G4.1
G4.2
G4.3
G4.5
G4.6
G4.7
G4.8
G4.4
G4.9
Mutated by Inversion from the previous Generation
41
G5
RESULTS - TABULATION
GENERATION 5
G١٫١ PA(٢٣,G,XZ,F) S٢D(١٫٣٥,ZY,AE,T) C(١٧,C,YZ,T)
The breeding led to one hopeful monsters, but generation 5 was the fittest generation having similar results in certain individuals in form and ranking.
AREA VOLUME A RANK V RANK A/V Average A+V Final Rank
AREA
٢٧٨٢١ ٨٢٧١ ٨٠١٤ ٨٠١٤ ٨٠١٤ ٧٨١٨ ٧٨١٨ ٧٦٧٨ ٦٤٧٤ ٥٣٠٧
G٥٫١
G٥٫٢
G٥٫٣
G٥٫٤
G٥٫٥
G٥٫٦
G٥٫٧
S(.٣,E,T)
R(٣٠,D,T)
MR(C,Y,F)
S١D(A,١٫٣٥,X,T)
MR(C,Y,F)
S١D(A,١٫٣٥,X,T)
PA(٥٢,B,Z,T)
MR(C,Y,F)
S١D(A,١٫٣٥,X,T)
MR(C,Y,F)
C(١٧,C,YZ,T) MR(C,EF,F)
C(١٧,C,YZ,T)
C(١٧,C,YZ,T) R(١٤,F,ZY,T)
S(.٣,E,T)
C(١٧,C,YZ,T) MO(١١,H,Z,T) MR(C,EF,F) MO(١١,H,Z,F) S(٢٫٣٥,A,T) S(.٣,E,T)
C(١٧,C,Z,T) MO(٥,E,Y,F) S١D(١٫١,A,X,T) MO(١١,H,Z,F) R(٣٠,D,T) S(.٣,E,T)
C(١٧,C,Z,T) R(١٤,F,ZY,T)
MO(١١,H,Z,F)
C(١٧,C,YZ,T) MO(٥,E,Y,F) S١D(١٫١,A,X,T) MO(١١,H,Z,F) R(٣٠,D,T) S(.٣,E,T)
C(١٧,C,YZ,T) R(١٤,F,ZY,T)
MO(١١,H,Z,F) S(٢,A,F) S(.٣,E,T)
C(١٧,C,YZ,T) MO(٥,E,Y,F) S١D(١٫١,A,X,T) MO(١١,H,Z,F) R(٣٠,D,T) S(.٣,E,T)
C(١٧,C,Z,T) MO(٥,E,Y,F) S١D(١٫١,A,X,T) MO(١١,H,Z,F) R(٣٠,D,T) S(.٣,E,T)
Normal Distance ١٫١٥٩٣٣E٠٦٦٫٠٣٠٤٨E٠٥٥٫٩٧٩٩٦E٠٥٥٫٩٧٩٩٦E٠٥٥٫٩٧٩٩٦E٠٥٥٫٩٣٥٤٦E٠٥٥٫٩٣٥٤٦E٠٥٥٫٩٠٠٥٨E٠٥٥٫٥٠٢٤E٠٥٤٫٩٧٦١٥E٠٥-
VOLUME ١٢٠٥٣٤ ٣٦٦٢٥ ٣١٠٥٢ ٣١٠٥٢ ٢٤٨١٤ ٢٤٦٤٨ ٢٤٦٤٨ ٢٤٦٤٨ ٢٣٨٤١ ١٥٩٨٣
٥٣٠٧ ١٥٩٨٣ ١٠ ١٠ ٠٫٣٣٢٠٤٠٢٩٣ ١٠ ١
S(.٣,E,T)
٦٤٧٤ ٢٤٨١٤ ٩ ٥ ٠٫٢٦٠٩٠١١٠٤ ٧ ٣
Average Standard Deviation ٩٥٢٢٫٩ ٦٤٩٣٫٦٢٦٦٤٤
٧٦٧٨ ٢٣٨٤١ ٨ ٩ ٠٫٣٢٢٠٥٠٢٥ ٨٫٥ ٢
AREA
0.00007
MO(١١,H,Z,F)
٧٨١٨ ٣١٠٥٢ ٦ ٣ ٠٫٢٥١٧٧١٢٢٢ ٤٫٥ ٤
MO(١١,H,Z,F)
٨٠١٤ ٢٤٦٤٨ ٣ ٦ ٠٫٣٢٥١٣٧٩٤٢ ٤٫٥ ٦
S(.٣,E,T)
Average Standard Deviation ٣٥٧٨٤٫٥ ٣٠٢٨٥٫٩٣٤٨٨
٧٨١٨ ٣١٠٥٢ ٦ ٣ ٠٫٢٥١٧٧١٢٢٢ ٤٫٥ ٤
٢٧٨٢١ ١٢٠٥٣٤ ١ ١ ٠٫٢٣٠٨١٤٥٤٢ ١ ١٠
Normal Distance ٢٫٦٢٥٩٥E٠٧١٫٣١٦٧٥E٠٥١٫٣٠١٢٧E٠٥١٫٣٠١٢٧E٠٥١٫٢٣٣٦١E٠٥١٫٢٣١١٤E٠٥١٫٢٣١١٤E٠٥١٫٢٣١١٤E٠٥١٫٢١٨٧١E٠٥١٫٠٦٣٧٦E٠٥-
VOLUME
0.000016
G٥٫٩
٨٠١٤ ٢٤٦٤٨ ٣ ٦ ٠٫٣٢٥١٣٧٩٤٢ ٤٫٥ ٦
A/V ٠٫٣٣٢٠٤٠٢٩٣ ٠٫٣٢٥١٣٧٩٤٢ ٠٫٣٢٥١٣٧٩٤٢ ٠٫٣٢٥١٣٧٩٤٢ ٠٫٣٢٢٠٥٠٢٥ ٠٫٢٦٠٩٠١١٠٤ ٠٫٢٥١٧٧١٢٢٢ ٠٫٢٥١٧٧١٢٢٢ ٠٫٢٣٠٨١٤٥٤٢ ٠٫٢٢٥٨٢٩٣٥٢
AREA VOLUME A RANK V RANK A/V Average A+V Final Rank
G٥٫١٠
MO(١١,H,Z,F) S(.٣,E,T)
٨٢٧١ ٣٦٦٢٥ ٢ ٢ ٠٫٢٢٥٨٢٩٣٥٢ ٢ ٩
Average Standard Deviation ٠٫٢٨٥٠٥٩١٨١ ٠٫٠٤٤٢٧٨٠٧١
G١٫٤
C(١٧,C,YZ,T)
G٢٫٢
G٢٫٣
G٢٫٤
G١٫٥ MR(E,ZY,T) A(١,٢,٣,٤,٥) MO(٥,Y,T) PA(A,٣٩,٣٦٠,F)
G١٫٦ S٢D(١٫٣٥,ZY,AE,T) PA(٥٢,B,Z,T)
G٢٫٥
G٢٫٦
MR(C,Y,F)
S٢D(١٫٣٥,ZY,AE,T)
G٣٫٦
G١٫٧ S١D(A,١٫٣٥,X,T)
G١٫٨ MR(C,Y,F)
G١٫٩ C(١٧,C,YZ,T) MO(١١,H,Z,T) S(٢,A,F) R(٣٠,D,T) MR(C,EF,F)
G١٫١٠ S(.٩,E,T)
G٢٫٩ G٢٫١٠ MR(C,Y,F) PA(٥٢,B,Z,T) S١D(A,١٫٣٥,X,T) R(١٤,F,DC,T) C(١٧,C,YZ,T) C(١٧,C,YZ,T) C(١٧,C,YZ,T) C(١٧,C,YZ,T) C(١٧,C,YZ,T) C(١٧,C,YZ,T) C(١٧,C,YZ,T) MR(E,GC,F) C(١٧,C,YZ,T) A(٥,٣,٧,٩,٤,٦,F) MR(C,EF,F) A(٢,٢,٣,٥,٦,٤,F) MO(٥,E,Y,F) R(٣٠,D,T) MR(C,EF,F) MO(١١,H,Z,T) R(١٤,F,ZY,T) MO(٥,E,Y,F) S٢D(١٫٣٥,A,XY,T) S١D(١٫١,A,X,T) MR(E,GC,F) MR(C,EF,F) MO(١١,H,Z,F) MO(١١,H,Z,F) MO(١١,H,Z,F) MO(١١,H,Z,F) MO(١١,H,Z,F) MO(١١,H,Z,F) S٢D(١٫٣٥,ZY,AE,T) C(١٧,C,YZ,T) R٣D(٢٣,D,XY,T) MO(١١,H,Z,F) PA(٣٩,A,AC,F) S(٢,A,F) R(٣٠,D,T) R(٣٠,D,T) S(.٩,E,T) S(٢,A,F) S(٢٫٣٥,A,T) S(.٣,E,T) S(.٣,E,T) S(.٣,E,T) S(.٣,E,T) S(.٣,E,T) S(.٣,E,T) MO(١١,H,Z,T) MR(C,EF,F) S(.٣,E,T) AREA ٧٣٤٢ ٢٦٢٩٢ ٨٢٧٩ ٩٤٩٩ ٨٠١٤ ١٠٩٤٠ ٨٦٥٣ ٢١٥٦٨ ٢٩٧٤٧ ١٠٠٠٤ VOLUME ٣١١٤٠ ١٦٧٧٧١ ٣٣٠٤٠ ٤٢١٥١ ٢٤٦٤٨ ٤٥٢٠٩ ٣٨٦٨٣ ٨٩٩٩٥ ١٣٩٣٢٩ ٣٩٠٩٦ A RANK ١ ٩ ٣ ٥ ٢ ٧ ٤ ٨ ١٠ ٦ V RANK ٩ ١ ٨ ٥ ١٠ ٤ ٧ ٣ ٢ ٦ A/V ٠٫٢٣٥٧٧٣٩٢٤ ٠٫١٥٦٧١٣٦١٦ ٠٫٢٥٠٥٧٥٠٦١ ٠٫٢٢٥٣٥٦٤٥٧ ٠٫٣٢٥١٣٧٩٤٢ ٠٫٢٤١٩٨٧٢١٥ ٠٫٢٢٣٦٨٩٩٩٣ ٠٫٢٣٩٦٥٧٧٥٩ ٠٫٢١٣٥٠١٨٥٥ ٠٫٢٥٥٨٨٢٩٥٥ Average A+V ٥ ٥ ٥٫٥ ٥ ٦ ٥٫٥ ٥٫٥ ٥٫٥ ٦ ٦ Final Rank ٨ ١٠ ٤ ٩ ١ ٥ ٧ ٦ ٣ ٢
٨٠١٤ ٢٤٦٤٨ ٣ ٦ ٠٫٣٢٥١٣٧٩٤٢ ٤٫٥ ٦
Normal Distance ٥٫١٣١٥٩٦٩١٣ ٥٫٩٨١٤٨٨٤٠٩ ٥٫٩٨١٤٨٨٤٠٩ ٥٫٩٨١٤٨٨٤٠٩ ٦٫٣٥٥٧٤١٥٧٥ ٧٫٧٦٣٩٢٤٩٧٦ ٦٫٧٩١٨٩٩١١٤ ٦٫٧٩١٨٩٩١١٤ ٤٫٢٥٤١٨٨٢٥٤ ٣٫٦٨٢٦٥٩٣١٤
AREA VOLUME A RANK V RANK A/V Average A+V Final Rank
MO(١١,H,Z,T)
G٢٫٧ R(٣٠,D,T) R(٣٠,D,T)
G٢٫٨ PA(٢٣,G,XZ,F) MO(١١,H,Z,T) C(١٧,C,YZ,T)
G٣٫٧ MR(C,Y,F) S٢D(١٫٣٥,ZY,AE,T) R(١٤,F,DC,T) MR(E,GC,F)
G٣٫٨
G٣٫٩
R(٣٠,D,T)
MO(١١,H,Z,T) C(١٧,C,YZ,T)
G٣٫١
G٣٫٢
G٣٫٣
G٣٫٤
G٣٫٥
S١D(A,١٫٣٥,X,T)
PA(٥٢,B,Z,T)
S(.٣,E,T)
S٢D(١٫٣٥,ZY,AE,T)
R(٣٠,D,T)
C(١٧,C,YZ,T) R(١٤,F,ZY,T)
C(١٧,C,YZ,T) MO(١١,H,Z,T) MR(C,EF,F) MO(١١,H,Z,F) S(٢٫٣٥,A,T) S(.٣,E,T)
C(١٧,C,YZ,T) MR(C,EF,F)
C(١٧,C,YZ,T)
C(١٧,C,YZ,T) A(٥,٣,٧,٩,٤,٦,F)
MO(١١,H,Z,F) S(٢,A,F) S(.٣,E,T)
C(١٧,C,YZ,T) R(٣٠,D,T) MR(E,GC,F) MO(١١,H,Z,F) S(.٩,E,T) S(.٣,E,T)
MO(١١,H,Z,F)
MO(١١,H,Z,F)
G٤٫١
G٤٫٢
G٤٫٣
G٤٫٤
G٤٫٥
G٤٫٦
G٤٫٧
R(٣٠,D,T)
MR(C,Y,F)
S١D(A,١٫٣٥,X,T)
PA(٥٢,B,Z,T)
MR(C,Y,F)
S١D(A,١٫٣٥,X,T)
PA(٥٢,B,Z,T)
C(١٧,C,Z,T)
C(١٧,C,Z,T) MO(٥,E,Y,F) S١D(١٫١,A,X,T) MO(١١,H,Z,F) R(٣٠,D,T) S(.٣,E,T)
C(١٧,C,Z,T) R(١٤,F,ZY,T)
C(١٧,C,Z,T) MO(١١,H,Z,T) MR(C,EF,F) MO(١١,H,Z,F) S(٢٫٣٥,A,T) S(.٣,E,T)
C(١٧,C,Z,T) MO(٥,E,Y,F) S١D(١٫١,A,X,T) S(.٣,E,T) R(٣٠,D,T) MO(١١,H,Z,F)
C(١٧,C,Z,T) R(١٤,F,ZY,T)
MO(١١,H,Z,F)
C(١٧,C,Z,T) MO(١١,H,Z,T) MR(C,EF,F) S(.٣,E,T) S(٢٫٣٥,A,T) MO(١١,H,Z,F)
MO(١١,H,Z,F)
0.000012
S(.٣,E,T)
٦٩٥٢ ٢٥٣١٠ ٨ ٦ ٠٫٢٧٤٦٧٤٠٤٢ ٧ ٤
٢٤٥١٥ ١٠٥٤٥ ١ ١٠ ٢٫٣٢٤٧٩٨٤٨٣ ٥٫٥ ٥
٥٣٠٧ ١٥٩٨٣ ١٠ ٩ ٠٫٣٣٢٠٤٠٢٩٣ ٩٫٥ ١
C(١٧,C,YZ,T)
G٣٫١٠
MR(C,EF,F) MO(٥,E,Y,F) R٣D(٢٣,D,XY,T) MO(١١,H,Z,F) MO(١١,H,Z,F) PA(٣٩,A,AC,F) S(٢,A,F) S(.٣,E,T) S(.٣,E,T) MR(C,EF,F) S(.٣,E,T) S(.٣,E,T) ١٠٩٤٠ ٦٤٧٤ ٢٣٤٦١ ١٠٣٧١ ٨٢٣٠ ٢١٢٨٦ ٤٥٢٠٩ ٢٤٨١٤ ١٧٠٣٤٦ ٣١٩٢٧ ٣٦٠٧٤ ١٥٠٧٥٨ ٤ ٩ ٢ ٥ ٦ ٣ ٣ ٧ ١ ٥ ٤ ٢ ٠٫٢٤١٩٨٧٢١٥ ٠٫٢٦٠٩٠١١٠٤ ٠٫١٣٧٧٢٥٥٧ ٠٫٣٢٤٨٣٤٧٧٩ ٠٫٢٢٨١٤٢١٥٢ ٠٫١٤١١٩٣١٧١ ٣٫٥ ٨ ١٫٥ ٥ ٥ ٢٫٥ ٨ ٢ ١٠ ٦ ٧ ٩
MR(C,Y,F) C(١٧,C,YZ,T) MO(٥,E,Y,F) S١D(١٫١,A,X,T) MO(١١,H,Z,F) R(٣٠,D,T) S(.٣,E,T)
٨٠١٤ ٢٤٦٤٨ ٧ ٨ ٠٫٣٢٥١٣٧٩٤٢ ٧٫٥ ٣
8 0.00001
0.00004 0.00003
0.000008
6
0.000006
4
0.00002
0.000004
0.00001
0.000002
2
0
A(٦ ,٥,٩,٣,١٠,١٢F)
MR(C,Y,F) S(.٩,E,T) C(١٥,B,Z,T) MO(٥,E,Y,F) S١D(١٫١,A,X,T)
S٢D(١٫٣٥,ZY,AE,T)
10
0.00005
G١٫٣ R(٣٠,D,T) S٢D(١٫٣٥,ZY,AE,T)
R(١٤,F,DC,T) C(١٧,C,YZ,T) S(١٫٧٥,D,F) C(١٧,C,YZ,T) MR(E,GC,F) MO(١١,H,Z,T) MO(١١,H,Z,T) R(١٤,F,ZY,T) A(٥,٣,٧,٩,٤,٦,F) A(٢,٢,٣,٥,٦,٤,F) MO(٥,E,Y,F) R(٣٠,D,T) MR(C,EF,F) S٢D(١٫٣٥,A,XY,T) MR(C,EF,F) S٢D(١٫٣٥,ZY,AE,T) MR(C,X,T) S١D(١٫٣٥,A,X,T) MO(١١,H,Z,F) R٣D(٢٣,D,XY,T) MO(١١,H,Z,T) PA(٣٩,A,AC,F) R(٣٠,D,T) S(.٩,E,T) S(٢٫٣٥,A,T) S(٢,A,F) R(٣٠,D,T) R(٣٠,D,z,T) S(٢,A,F) C(١١,H,Z,T) R٣D(٢٣,D,XY,T) S(.٣,E,T) MR(C,EF,F) A(XZ,AF,٥,٩,٣,F) MR(C,X,F) ٢٣٠٨١ ٤٥٠٣٨ ١١٣١٧ ٨٧٣٥ ٧٨٠٠٦ ٤٤٧٠٦ ١٠٠٠٤ ٢٣٦٧٦ ٣٥٩٧٨ ٩١٥٩ ٩٩٥٤٧ ٢٩٣٥٥٤ ٤٧٧٦٣ ٢٧٤٢٤ ٧١٧٩٣٤ ٢٦٨٢٦٧ ٣٩٠٩٦ ١٣٤٤٥٣ ٢١٧٧٦١ ٤٢٢٩٧ ٥ ٩ ٤ ١ ١٠ ٨ ٣ ٦ ٧ ٢ ٦ ٢ ٧ ١٠ ١ ٣ ٩ ٥ ٤ ٨ ٠٫٢٣١٨٦٠٣٢٧ ٠٫١٥٣٤٢٣٢٢ ٠٫٢٣٦٩٤٠٧٢٨ ٠٫٣١٨٥١٦٦٢٨ ٠٫١٠٨٦٥٣٤٤٢ ٠٫١٦٦٦٤٧٤٠٧ ٠٫٢٥٥٨٨٢٩٥٥ ٠٫١٧٦٠٩١٢٧٤ ٠٫١٦٥٢١٧٨٣١ ٠٫٢١٦٥٤٠١٨ ٥٫٥ ٥٫٥ ٥٫٥ ٥٫٥ ٥٫٥ ٥٫٥ ٦ ٥٫٥ ٥٫٥ ٥ ٤ ٨ ٣ ٢ ٩ ٦ ١ ٥ ٧ ١٠
R(٣٠,D,T) MR(E,GC,F) C(١٧,C,YZ,T) S(.٩,E,T) MO(١١,H,Z,T)
G٢٫١
A/V
12
0.000014
0.00006
G٥٫٨
G١٫٢ MR(E,GC,F) MO(١١,H,Z,T)
0
0
10000
20000
30000
40000
50000
60000
70000
80000
90000
0 0
100000
200000
300000
400000
500000
G1 G2 G3 G4 G5
600000
700000
800000
0
0.5
1
1.5
G1 G2 G3 G4 G5
2
MO(١١,H,Z,F)
2.5
G1 G2 G3 G4 G5
AREA VOLUME A RANK V RANK A/V Average A+V Final Rank
G4.10
G5.1
G4.1
G5.3
G4.2
G5.2
G4.3
G5.4
G4.5
G5.6
G4.6
G5.5
G4.7
G5.8
G4.8
G5.10
G4.4
G5.9
G4.9
G5.7 AREA VOLUME A RANK V RANK A/V Average A+V Final Rank
S(.٣,E,T)
٦٤٧٤ ٢٤٨١٤ ٩ ٧ ٠٫٢٦٠٩٠١١٠٤ ٨ ٢
٧٧٤١ ٢٣٩٦٢ ٧ ٩ ٠٫٣٢٣٠٥٣١٦٨ ٨ ٣
MO(١١,H,Z,F) S(.٣,E,T)
٧٢٨٢ ٢٨٢٩٠ ٨ ٦ ٠٫٢٥٧٤٠٥٤٤٤ ٧ ٤
٢٤٠٨٨ ١٠٨٧٧٢ ٢ ٢ ٠٫٢٢١٤٥٤٠٥١ ٢ ٩
٨٠٥٤ ٢٤٥٧٩ ٦ ٨ ٠٫٣٢٧٦٧٨٠٩٩ ٧ ٥
S(.٣,E,T)
٨٠٧٣ ٣٠٩٤٣ ٥ ٥ ٠٫٢٦٠٨٩٩٠٧٢ ٥ ٦
G٤٫٨
٨٦٥٣ ٣٨٦٨٣ ٤ ٤ ٠٫٢٢٣٦٨٩٩٩٣ ٤ ٧
G٤٫٩
G٤٫١٠
C(١٧,C,Z,T)
S(.٣,E,T)
C(١٧,C,Z,T) A(٥,٣,٧,٩,٤,٦,F)
A(٥,٣,٧,٩,٤,٦,F)
MO(١١,H,Z,F)
MO(١١,H,Z,F)
S(.٣,E,T)
S(.٣,E,T)
MO(١١,H,Z,F) S(٢,A,F) S(.٣,E,T)
G٥٫١٠
٢١٥٦٨ ٨٩٩٩٥ ٣ ٣ ٠٫٢٣٩٦٥٧٧٥٩ ٣ ٨
٢٩٧٤٧ ١٣٩٣٢٩ ١ ١ ٠٫٢١٣٥٠١٨٥٥ ١ ١٠
C(١٧,C,YZ,T) MR(C,EF,F)
٥٣٠٧ ١٥٩٨٣ ١٠ ١٠ ٠٫٣٣٢٠٤٠٢٩٣ ١٠ ١
G٥٫١
G٥٫٢
G٥٫٣
G٥٫٤
G٥٫٥
G٥٫٦
G٥٫٧
G٥٫٨
G٥٫٩
S(.٣,E,T)
R(٣٠,D,T)
MR(C,Y,F)
S١D(A,١٫٣٥,X,T)
MR(C,Y,F)
S١D(A,١٫٣٥,X,T)
PA(٥٢,B,Z,T)
MR(C,Y,F)
S١D(A,١٫٣٥,X,T)
MR(C,Y,F)
C(١٧,C,YZ,T) MR(C,EF,F)
C(١٧,C,YZ,T)
C(١٧,C,YZ,T) MO(٥,E,Y,F) S١D(١٫١,A,X,T) MO(١١,H,Z,F) R(٣٠,D,T) S(.٣,E,T)
C(١٧,C,YZ,T) R(١٤,F,ZY,T)
C(١٧,C,YZ,T) MO(٥,E,Y,F) S١D(١٫١,A,X,T) MO(١١,H,Z,F) R(٣٠,D,T) S(.٣,E,T)
C(١٧,C,YZ,T) R(١٤,F,ZY,T)
C(١٧,C,YZ,T) MO(١١,H,Z,T) MR(C,EF,F) MO(١١,H,Z,F) S(٢٫٣٥,A,T) S(.٣,E,T)
C(١٧,C,Z,T) MO(٥,E,Y,F) S١D(١٫١,A,X,T) MO(١١,H,Z,F) R(٣٠,D,T) S(.٣,E,T)
C(١٧,C,Z,T) R(١٤,F,ZY,T)
C(١٧,C,Z,T) MO(٥,E,Y,F) S١D(١٫١,A,X,T) MO(١١,H,Z,F) R(٣٠,D,T) S(.٣,E,T)
MO(١١,H,Z,F) S(٢,A,F) S(.٣,E,T)
٥٣٠٧ ١٥٩٨٣ ١٠ ١٠ ٠٫٣٣٢٠٤٠٢٩٣ ١٠ ١
MO(١١,H,Z,F) S(.٣,E,T)
٦٤٧٤ ٢٤٨١٤ ٩ ٥ ٠٫٢٦٠٩٠١١٠٤ ٧ ٣
٧٦٧٨ ٢٣٨٤١ ٨ ٩ ٠٫٣٢٢٠٥٠٢٥ ٨٫٥ ٢
MO(١١,H,Z,F) S(.٣,E,T)
٧٨١٨ ٣١٠٥٢ ٦ ٣ ٠٫٢٥١٧٧١٢٢٢ ٤٫٥ ٤
٨٠١٤ ٢٤٦٤٨ ٣ ٦ ٠٫٣٢٥١٣٧٩٤٢ ٤٫٥ ٦
MO(١١,H,Z,F) S(.٣,E,T)
٧٨١٨ ٣١٠٥٢ ٦ ٣ ٠٫٢٥١٧٧١٢٢٢ ٤٫٥ ٤
٢٧٨٢١ ١٢٠٥٣٤ ١ ١ ٠٫٢٣٠٨١٤٥٤٢ ١ ١٠
٨٠١٤ ٢٤٦٤٨ ٣ ٦ ٠٫٣٢٥١٣٧٩٤٢ ٤٫٥ ٦
MO(١١,H,Z,F) S(.٣,E,T)
٨٢٧١ ٣٦٦٢٥ ٢ ٢ ٠٫٢٢٥٨٢٩٣٥٢ ٢ ٩
٨٠١٤ ٢٤٦٤٨ ٣ ٦ ٠٫٣٢٥١٣٧٩٤٢ ٤٫٥ ٦
Mutated by Inversion from the previous Generation
Same Result in 3 dimensional form and rank
42
RESULTS - RENDERS TREE
RESULTS - BELL CURVES AREA
0.00007
GENETIC CROSSOVER
0.00006 0.00005 0.00004 0.00003 0.00002 0.00001 0
G1 G2 G3 G4 G5 0
10000
20000
30000
40000
50000
60000
70000
80000
90000
VOLUME
0.000016 0.000014 0.000012
G1.7
G1.4
G1.3
G1.1
G1.8
G1.6
G1.9
G1.2
G1.5
G1.10
G2.5
G2.10
G2.9
G2.3
G2.6
G2.8
G2.7
G2.1
G2.4
G2.2
G2.5
G2.10
G2.9
G2.3
G2.6
G2.8
G2.7
G2.1
G2.4
G2.2
G3.3
G3.5
G3.10
G3.1
G3.2
G3.7
G3.8
G3.4
G3.9
G3.6
G3.3
G3.5
G3.10
G3.1
G3.2
G3.7
G3.8
G3.4
G3.9
G3.6
G4.10
G4.1
G4.2
G4.3
G4.5
G4.6
G4.7
G4.8
G4.4
G4.9
G4.10
G4.1
G4.2
G4.3
G4.5
G4.6
G4.7
G4.8
G4.4
G4.9
G5.1
G5.3
G5.2
G5.4
G5.6
G5.5
G5.8
G5.10
G5.9
G5.7
0.00001 0.000008 0.000006 0.000004 0.000002 0
0
G1 G2 G3 G4 G5 100000
200000
300000
400000
500000
600000
700000
800000
A/V
12
10
8
6
4
2
0
G1 G2 G3 G4 G5 0
0.5
1
1.5
2
Same Result in 3 dimensional form and rank
2.5
43
PORTFOLIO
PHOTOGRAPHY Adobe Lightroom Editing
Camera Nikon D4S Location LAU Byblos Date July 25, 2014 44
Camera Canon AE1 Film Location Holcim Chekka Date Spring, 2013 45
BEFORE
AFTER
Camera Nikon D800 Location LAU Byblos Date Feb 26, 2014 46
Camera Nikon D800 Location LAU Byblos Date Feb 26, 2014 47
Camera Canon AE1 Film Location Holcim Chekka Date Spring, 2013 48
Camera Canon AE1 Film Location Holcim Chekka Date Spring, 2013 49
PORTFOLIO
FPR.final Project Research FALL 2016 FPR Title
Dalieh UrbanHike Aquarium
Instructor
Mr. Marwan Zouein
Location
Dalieh - Beirut
Description
. Study on Dalieh’s ecological characteristics . Study on social activities . Study on the different functions of the site . The contrast between Public and Private activities . The conflict between the free natural quality of the site and the high-end prices of lots . Intervention Program that will be a mediator between all conflicting portions of this site
50
LOTS 3653, 2896 & 616 ARE THE ONLY EMPTY LOTS ON DALIEH’S CORNICHE. WHEN LOOKED AT FROM DALIEH THEY LOOK LIKE AN EXTENSION TO THE TOPOGRAPHY THAT HAS BEEN CUT BY THE HIGHWAY
GREEN ZONES - SUMMER
MOVENPICK HOTEL: DECREE NO. 4810 (ISSUED IN 1966) AMENDED THE PUBLIC MARITIME DOMAIN LAW, AND IT APPLIES TO ALL PRIVATE PROPERTY AREAS ADJACENT TO THE SEA. ADDITIONALLY, THE DECREE ALLOWS ANY RESORT OWNER TO USE THREE TIMES THE SURFACE AREA OF
GREEN ZONES - WINTER
THE RESORT PLOT TO CONSTRUCT A MARINA.
2895 616 m2 2896 1003 m2
1122
3653 5460 m2
Sakhrit al-Bahr REC: 1200 shares (1995) Inheritors of Diab family: 1200 shares
1107 3694 m2
GREEN ZONES - SPRING
1123
Sakhrit al-Bahr REC: 240 shares (1995) A. Mahmasani: 240 shares (1973) Tadamon Company: 1920 shares (1983)
GREEN ZONES
FISHING CRANES
NATURAL PATHS ON SITE
1115
Bahr REC (1998) 1114 1113
Bahr REC (1995)
Bahr REC: 1200 shares (1998) Chatila family: 1200 shares 2389
1120
Sakhrit al-Bahr REC (1995)
Bahr REC (1995)
Bahr REC: 2300 shares (2007) S. Baydoun: 100 shares 1116 Bahr REC: 2133.8 shares (2000) Inheritors of Baydoun, Nsouli, Chatila, Najjar, Sa'eb families: 266.3 shares (1995) STRUCTURES ON DALIEH
CONCRETE ACCROPODES
51
Bahr REC (2007)
Mövenpick Hotel Merriland REC (1986)
1126 1119 1118 1117
PEDESTRIAN FLOW - CORNICHE
1125 1121
Sakhrit al-Yamama REC: 2280.72 shares (1995) F. Bassoul: 0.53 shares (1937) M. Bassoul: 50 shares (1956) H. Bassoul: 50 shares (1956) Inheritors of M. Eid: 18.75 shares (1970)
SPRING EQUINOX
WINTER SOLSTICE SHADOW ANALYSIS OF SITE: LOT 2895 IS THE MOST EXPOSED TO THE SUN IN WINTER
WINTER SOLSTICE
SHADOW ANALYSIS - SUMMER SOLSTICE
AUTUMN EQUINOX
VERMETID REEFS
CAVES
FAUNA MONK SEAL (CAVES) BOTTLENCOSE DOLPHIN SEA TURTLES GREY HERON FRUIT BATS (CAVES) PELICANS SHEARWATERS SEAGULLS EGRET
ACTIVITIES/MASS PLAN SCALE 1/1000
GANNET CORMORANT JELLYFISH
52
FRIDAY’S
PETIT CAFÉ
LA GROTTE AUX PIGEONS BLOM
DUROY
STARBUCKS NESTLE C HOUSE CAFE
AL BAR PIZZA HUT SNACK BARBAR
SHRIMPY PATISSERIE HALLAB
AL ARICHE SAVOY CONFORT BISTROT 66
AUDI
SHERATON FOUR POINTS
BURGER KING
ROYAL PLAZA
MOVENPICK
MAPPING / STRATEGY / MASS PLAN SCALE 1/1000 HOTEL
RESTAURANT / CAFÉ
BANK
53
Laundry Offices & Staff Spaces Storage
HOTEL
MARITIME FACADE STUDY
Rooms: Double & Single Rooms overlooking the sea & park
Fish Market: Run by Local Fishermen
RESTAURANTS & CAFES
Hotel Restaurant
Entrance Lobby
Luxurious suites: Up to 4 Family Size Suites
FISHERMEN HOUSING 3 Star Seafood Restaurant
3 Star Cuisine
TOWER FACING PIGEON ROCKS CARACTERISTICS: . RESIDENTIAL TOWER . PUBLIC GROUND FLOOR OVERLOOKING THE STREET & CARS . RAISED PRIVATE LEISURE PLATFORM . COMPLETE DISCONNECTION FROM
Small Family Apartments
INTERNAL STREET THROUGH A WASTED SPACE OF PARKINGS . NO ACTIVITY ON THE SIDEWALK
Cafe
Restaurant
PUBLIC
Fishermen Workshop
Sandwiches
GREEN OPEN PARK
Boutique
C HOUSE CAFE
23 FLOORS RESIDENTIAL TOWER
PHARMACY SWIMMING POOL PRIVACY PLANTER
Lounge Area
NESTLE TOLL HOUSE STARBUCKS
AQUARIUM
BRIEF Program Explanation Technical Rooms Project Parking
Swimming Pools
PARKING 1000 CARS
Corniche Parking
Site Parking
Sports Facilities
• The typical construction typology is a highrise on the maritime façade. They are either hotels or mixed use residential buildings with banks, restaurants or cafés mainly to the ground floor. • The proposed program topples that typology down and makes way to an intervention that extends the public natural topography towards the urban fabric. • This strategy unites programs thought of to be contradicting and unlikely to be put together like a hotel and fish restaurant with fishermen housing and fish market.
54
BACK MAIN ENTRANCE & PARKING
PROGRAM ZONING SCALE 1/250 1: AQUARIUM 2: RESTAURANTS 3: FISHERMEN HOUSING 4: BOUTIQUE HOTEL 5: GREEN PARK 6: SKATE POOL
3
2 4
1
5
6
PATHS ON TOPOGRAPHY
PROCESS
1. ZONING: 40% - 2.5, 7110 m2
2. PATHS STUDY & CONNECTIONS
3. LAYER 1: EXISTING PATHS ON SITE
4. LAYER 2: TOPOGRAPHY
5. LINKING BRIDGES FROM TOP AND PROGRAM
55
PORTFOLIO
DESIGN X SPRING 2017 FYP Title
Dalieh UrbanHike Aquarium Aquarium, Hotel, Fishermen Housing, Park, Fish Market & Restaurant, Public Parking
Instructor
Mr. Marwan Zouein
Assistant
Ms Sandra Richani
Location
Dalieh - Beirut
Description
The basic concept behind “UrbanHike Aquarium” is to treat the site from the perspective of a performer, a little kid, a sportsman, a stroller or simply a person who wants to enjoy nature. Therefore, the whole intervention can be considered as a vast playground for all ages and people. The architectural handling of the theme is to overlay different layers of existing and needed systems: The first system is topography and how to extend it beyond the highway. It takes into consideration that Dalieh’s topography is natural and some of its parts are not suitable for people. On the other hand, UrbanHike’s artificial topography is more suitable for hikers who can stroll through its various parts except for some light-structured steep zones. The second system is the complex network of paths found on Dalieh and their extension towards the site. The difference between paths on Dalieh and those in UrbanHike is that those natural ones are two-dimensional, overlaid on the topography, while the ones in UrbanHike are three-dimensional; they carve the built topography, creating passages and alleyways, then they rise and drop to connect the different sections of the setting. The most complex system left can be considered as the program of the intervention itself: how to integrate a construction in the topography without affecting the quality of life in it and the public porous property of the park. From this point of view, the different parts of the internal program are intertwined with each other, linked on all different stages and levels. This idea is better understood when one comprehends all the drawings of the project with its bridges, tunnels, pathways and perforations.
56
57
58
59
60
61
62
63
SECTION THROUGH THE FISHERMEN HOUSING Main Feature: Accessibility of all floors from the outside by hiking the mountain up (no need to take the main shaft to reach the last floors)
64
65
66
67
68
69
70
71
72
73
74
RAMZI FARES Architect