1. Winter Presentation Island 2000

2. Introducing ISLAND 2000

3. Jonathan Wong Michael Hughes Renee Elsdon Jonghoon Kim Group Presentation March 10, 2000

4. ISLAND 2000 Project Overview : Design a new engineering center to replace an existing 3 story building at Island University, Florida.

5. ISLAND 2000 Project Overview : One building has a square footprint and one has an L- shaped footprint.

6. ISLAND 2000 Project Overview : Requirement: The palm tree grove must be preserved, and some internal spaces must have views to the grove.

7. ISLAND 2000 Project Overview : Requirement: Interior organization is based upon the affinity table.

8. The AFFINITY TABLE Auditorium Faculty Lounge Tech. support Computer Room Secretaries Faculty Offices Chair’s Office Senior Admin. Storage Instructional Lab Student Offices Small Class Seminar Large Classrooms * Size of bubble directly relates to required size of each room

9. THE PROCESS architect Aesthetics

10. A local site was selected to authenticate the project and aid in the architectural design process A local site was selected

11. That had a sandy, semi-populated beach And offered a sense of serenity

12. San Francisco Bay

13. ANGEL ISLAND

14. Quarry Beach

15. Site Contours Other University Buildings And Site Model

16. ISLAND 2000 Other “University” Buildings….

17. Don’t you want to be there?

18. ISLAND 2000 Q ualities of the site: Strong visual attraction to specific points on the horizon

19. Tilden Park/Berkeley Treasure Island/ Bay Bridge Chevron/ San Rafael Bridge ISLAND 2000 Q ualities of the site:

20. Nature of cove and hill forms gives the site a strong directional quality ISLAND 2000 Q ualities of the site:

21. ISLAND 2000 Cove form: radial directional quality ISLAND 2000 Q ualities of the site:

22. Hill Form: Sloping directional quality Beach/Bay Form: endless horizontal directional quality ISLAND 2000

23. Sense of seclusion; other campus buildings are located out of sight Q ualities of the site:

24. Structural engineer THE PROCESS architect Aesthetics Structure

25. ISLAND 2000 No seismic consideration Q ualities of the site:

26. ISLAND 2000 Building needs to be designed for 110 mph wind Q ualities of the site:

27. Advantages of Material Selection R/C BeamsR/C with composites TimberTimber w/ composites Strength Weight Weather Resistant Cost Effective Ductile Failure

28. Construction Manager owner Iterations between the members Structural engineer THE PROCESS architect Aesthetics Structure Planning Chooses

29. Construction Manager Structural engineer architect owner THE PROCESS Iterations between the members

30. RIDGE 1999 – SQUARE SOLUTION Option 1: E-A Iteration

31. ARCHIT ECT RIDGE 1999 – SQUARE SOLUTION Option 1: RIDGE CONCEPT A plan with symmetry: And organized around the auditorium

32. Use wooden exterior to mirror material of environment and act as “skin” of building Use concrete for interior forms, relationship to malleable sand Interior organization edited to fit project requirements RIDGE 1999 – SQUARE SOLUTION ARCHIT ECT RIDGE 1999 – SQUARE SOLUTION Option 1: CONCEPT DEVELOPMENT

33. ARCHIT ECT RIDGE 1999 – SQUARE SOLUTION Option 1: Iteration Process

34. ARCHIT ECT RIDGE 1999 – SQUARE SOLUTION Option 1: Iteration Process

35. ARCHIT ECT RIDGE 1999 – SQUARE SOLUTION Option 1: Wood en “Ski n” Wall Components Architecture Design Results

36. ARCHIT ECT RIDGE 1999 – SQUARE SOLUTION Option 1: + Concr ete Space - Defin ing Walls Architecture Design Results Components

37. ARCHIT ECT RIDGE 1999 – SQUARE SOLUTION Option 1: 1 st Floor Small Classroom Large Classroom Laboratory Seminar Auditorium Small Classroom Elevator Stairs Elevator Architecture Design Results

38. ARCHIT ECT RIDGE 1999 – SQUARE SOLUTION Option 1: 2 nd Floor Architecture Design Results Auditorium Computer Room Seminar Lab Seminar Tech Support Student Offices Seminar Student Offices

39. ARCHIT ECT RIDGE 1999 – SQUARE SOLUTION Option 1: 3 rd Floor Chair Lounge Faculty Offices Secretaries Elevator Stairs Elevator Architecture Design Results ChairAdmin

40. ARCHIT ECT RIDGE 1999 – SQUARE SOLUTION Option 1: Sections Architecture Design Results Auditorium Auditorium is central element Auditorium is curvilinear in all dimensions Wall installed to support auditorium at the request of E-C

41. ARCHIT ECT RIDGE 1999 – SQUARE SOLUTION Option 1: Sections Architecture Design Results

42. ENGINEER RIDGE 1999 - SQUARE SHAPE Option 1: ? *Elevated autditorium must be supported. *Integration of wood and concrete shear walls. *Adequate treatment of timber in corrosive envoronment.

43. 40” Stee l Joist Gird ers 14” TJI/H90 @ 16” oc (TYP) 2 nd Floor Plan 3 rd Floor Plan *Joist girders must span 50” over auditorium. *Joist supports concrete above. ENGINEER RIDGE 1999 - SQUARE SHAPE Option 1:

44. RIDGE 1999 – SQUARE SOLUTION Option 1: Issues Cost of Piles as foundation Using concrete and wooden walls simultaneously leads to structural/construction problem Custom concrete shapes have high construction costs CONSTRUCTION

45. ARCHIT ECT RIDGE 1999 – L-SHAPE SOLUTION Option 2: A-E Iteration

46. ARCHIT ECT RIDGE 1999 – L-SHAPE SOLUTION Option 2: RIDGE CONCEPT Three grids embedded within the orientation of the walls

47. ARCHIT ECT RIDGE 1999 – L-SHAPE SOLUTION Option 2: RIDGE CONCEPT Three grids organizing the orientation of walls Using cantilevers to break out of L-shape Cantilever Overhanging System

48. Structure defines location of the auditorium (made to support a 50 ft span). Embed auditorium into hill-it does not need light Roof is important because of accessibility from hill, make it main entrance ARCHIT ECT RIDGE 1999 – L-SHAPE SOLUTION Option 2: CONCEPT DEVELOPMENT

49. ARCHIT ECT RIDGE 1999 – L-SHAPE SOLUTION Option 2: INITIAL REACTION

50. ARCHIT ECT RIDGE 1999 – L-SHAPE SOLUTION Option 2: ITERATION PROCESS

51. ARCHIT ECT RIDGE 1999 – L SHAPE SOLUTION Option 2: ITERATION PROCESS

52. PLANS and SECTIONS 1 ST FLOOR RIDGE 1999 – L SHAPE SOLUTION Auditorium Faculty Offices Storage Secretaries Admin Office Chair Office

53. 2 ND FLOOR PLANS and SECTIONS RIDGE 1999 – L SHAPE SOLUTION Auditorium Storage Student Offices Small Class Large Class Lab Seminar Computer Lab Tech Support

54. 3 RD FLOOR PLANS and SECTIONS RIDGE 1999 – L SHAPE SOLUTION Lab Small Class Large ClassStorage SeminarEntrance

55. PLANS and SECTIONS 1 ST FLOOR 2 ND FLOOR 3 RD FLOOR RIDGE 1999 – L SHAPE SOLUTION

56. PLANS and SECTIONS RIDGE 1999 – L SHAPE SOLUTION Area of landscaping

57. ARCHIT ECT RIDGE 1999 – L SHAPE SOLUTION Option 2: LANDSCAPED ROOF/ENTRANCE PLAN PERSPECTIVE Congregational Areas

58. ARCHIT ECT RIDGE 1999 – L SHAPE SOLUTION Option 2: LANDSCAPED ROOF/ENTRANCE Example of concrete multifunc tional forms in Landscap e area

59. PLANS and SECTIONS 1 ST FLOOR RIDGE 1999 – L SHAPE SOLUTION AREAS OF FILL

60. ENGINEER RIDGE 1999 – L- SHAPE Option 2: Concret e Moment Frames 12” Concrete Retaining Wall Found ation Plan *36” x 36” spread footing on stiff clay *12” x 10” concrete columns *36” Pile Foundations

61. Concrete Retainin g Wall Option 2 – L- Shape 1 ENGINEER RIDGE 1999 – L- SHAPE Option 2:

62. 4”x6” Concrete Beams 2 nd Floor Plan 3 rd Floor Plan Concr ete Beams One - Way Conc rete Slab ENGINEER RIDGE 1999 – L- SHAPE Option 2:

63. Piles increase the costs of construction Excavation into hillside raises construction costs Auditorium needs high cost retaining walls Over-budget CONSTRUCTION RIDGE 1999 – L- SHAPE Option 2:

64. ARCHIT ECT ISLAND 2000-L SHAPED OPTION Option 3: CONCEPTUAL IDEAS Use directional nature of the site and specific points on the horizon to generate form of the building

65. Establish Lines of Importance San Rafael Bridge Berkeley Treasure Island

66. These lines become circulation in the building Plan View Extrude the façade where The lines of sight intersect the facade

67. ARCHIT ECT ISLAND 2000-L SHAPED OPTION Option 3: ITERATION PROCESS

68. ARCHIT ECT ISLAND 2000-L SHAPED OPTION Option 3: ITERATION PROCESS

69. ARCHIT ECT ISLAND 2000-L SHAPED OPTION Option 3: DESIGN FEATURES Circular Stairwell at intersection of circulation zones Radial Circulation Regions

70. ARCHIT ECT ISLAND 2000-L SHAPED OPTION Option 3: 1 st Floor 2 nd Floor 3 rd Floor auditorium Large Class Small class Student Off. Seminar lab Tech support Computer Secretary Chair’s Office Senior Admin Faculty LoungeStorage Interior organization

71. ARCHIT ECT ISLAND 2000-L SHAPED OPTION Option 3: Section Cut Along an Axis Audit oriu m Extruded façade rooms

72. Foundat ion Plan *36” Cast- in-Place Piles *Intricate Stairwell Concept *Placing of Stairwell Columns ENGINEER ISLAND 2000- L- SHAPE Option 2:

73. 2 nd Floor Plan 3 rd Floor Plan *Staircase support *3 rd Floor cantilever *Placement of interior columns *W14 x 50 columns *W14 x 36 beams Steel Moment Frames ENGINEER ISLAND 2000 – L-SHAPE Option 2:

74. ISLAND 2000-L SHAPED OPTION Option 3: Glass Staircase and Stairwell is expensive because of custom detailing Pile Foundation is expensive ISSUES CONSTRUCTION

75. ARCHIT ECT ISLAND 2000 – SQUARE SHAPE SOLUTION Option 4: CONCEPT Use the form and light qualities of the tree grove to create a concept for the engineerin g facility

76. CONCEPT Roof inspired by palm tree fronds Want to achieve a curved, light roof

77. ARCHIT ECT ISLAND 2000 – SQUARE SHAPE SOLUTION Option 4: ITERATION PROCESS

78. ARCHIT ECT ISLAND 2000 – SQUARE SHAPE SOLUTION Option 4: ITERATION PROCESS

79. PLANS RIDGE 1999 – L SHAPE SOLUTION 3 rd Floor Faculty, Admin, Chair, and Secretaries Offices 2 nd Floor Seminar, Auditorium, Lab, Seminar Student Offices 1 st Floor Classrooms, Auditorium, Lab, Seminar

80. PLANS RIDGE 1999 – L SHAPE SOLUTION Auditorium has access from both the first and second floor. Second floor walkways are visible from the interior of the auditorium.

81. ISLAND 2000 – SQUARE SHAPE SOLUTION Option 4: ENGINEER 12” Mat Footin g Founda tion Plan *Use of mat foundation *Diaphram continuity *Treated timber

82. ISLAND 2000 – SQUARE SHAPE SOLUTION Option 4: ENGINEER 2 nd Floor Plan *Use of mat foundation *Diaphram continuity *Treated timber *12” x 24” Glu-Lam beams 3 rd Floor Plan Glu- Lam Beams

83. ISLAND 2000 – SQUARE SHAPE SOLUTION Option 4: ENGINEER Trusses w/ Canvas Roof Roof Plan *Intricate roof plan *Canvas Roof *Wood truss members

84. A-E-C Discussions Will a glass wall hold up in a hurricane? Glass wall is expensive. Cloth roof will not allow MEP system to be located in roof, as typically done. Are wooden columns available in 2’ diameter?

85. How Much Will These Alternatives Cost?

86. Cost Breakdown Comparison

87. Cost Estimates Budget = $ 4.33 MCost = $ 4.7-4.9 M

88. Cost Estimates Cost = $ 3.7-3.8 MBudget = $ 4.33 M

89. Cost Estimates Cost = $ 4.3-4.4 M Budget = $ 4.33 M

90. Cost Estimates Cost = $ 3.6-3.8 MBudget = $ 4.33 M

91. Site Layout

92. Palm Grove Existing Parking Lots and Roadways

93. Job Trailers Mat’ls Laydown Temporary Easement Mobile Crane

94. Job Trailers Mat’ls Laydown Temp. Easement Mobile Crane

95. How Long Will It Take?

96. Wood structure R/C in auditorium: Sequence coordination Pile foundation Schedule Constraints

97. Duration Calculation Quantity Daily Output RS Means Data

98. Total Schedule Based on Wood Structure 9.5 month

99. Comparison Between Options

100. Schedule Constraints R/C structure Pile foundation Hillside excavation: 3 times backfill after retaining wall

101. Total Schedule Based on R/C 12 month

102. Comparison Between Options

103. Schedule Constraints Steel structure Glass wall in 1 st floor Spiral stair Skylight

104. Total Schedule Based on steel structure 11.5 month

105. Comparison Between Options

106. Schedule Constraints Steel truss Canvas roof: vyl. coated polyester fabric shell

107. Total Schedule Based on wood structure, canvas roof 9 month

108. Comparison Between Options

109. Does it meet affinity requirements? Ridge Square Ridge L-Shape New Square New L-Shape Safe?View requirements? Meet Budget? OPTION COMPARISONS Exciting Statement? Complexity Best Choice

110. Our Choice

111. ISLAND 2000 Reasons Owner preferred modern look for school Cost is Right Around Budget (Challenge) Easier Site Access Its OUR Design

112. Any Questions? Thank You For Your Time