Pita_Portfolio by sorel enegy

Table of Contents -Vector HH @ William P. Hobby Airport.Houston Tx -The Floating Theater -Stack em Up (Roanoke River Va) - Hilton Hotel (Rooms of the Future ) Grant - 15 Proposed Room Concept (NanoTechnology) - 20 Proposed Room Concept (Biomimicry) -BioNanocry Hotel

William P. Hobby Airport. Houston Tx

vector HH

I was hired by luva Buvoli llc, based in NYC, to be in charge of the construction documents and the pre-

sentation drawings for sculpture vector HH. it was to be installed at hobby airport houston tx, and had a three month deadline that included cds, airport approval, and the construction. the project consisted of ten wings built from a light 1â&#x20AC;? pipe and plexy glass. the separated wings were suspended by cables that attached to a 2â&#x20AC;? pipe unifying the whole thing. I also helped with design changes during the design process of the project. the construction drawings were extracted from rhino and finished in auto cad 2010. This project had a very rigid deadline and there was no room for error. by being very deliberate and precise we finished the project a week in advance and it got a contract to be the main piece for the additions of the airport for 10 years wich is the the longest term given to a movable sculpture at the airport.

The

floating

theater

east seating section

using a historical building from the 19th century as a backdrop the idea of the theater was to expose the stage to the street and draw people in. this exposure was accomplished by separating the seating to appear as a floating element . the east wing of theater serves as a cafe and administrative office. it also has exposure to the stage in the common areas for recreational purposes of the employees. this wing takes advantage of the sites landscape because one can access the bayou from the street uninterrupted, but also enjoy the trees and scenery on the way to the office or bayou. Lastly the scale is subtle in relationship to the surrounding buildings . The scale is intentionally proportioned smaller than the surrounding buildings because the intention was not to over power the site.

below grade

1st floor plan

street level

2nd floor plan

cross section

stripped section

south stage section  







   

view from stage

aerial model view

bayou access



 

section detail

1/2 “ section scaled wooden model

seating and cealing sec.

a the design intention is to provide building systems, modular in nature, unifying the surrounding landscape with landmarks that identify the location as well as attract citizens to the Roanoke River Green way. These systems have the potential to expand over the years using the different components of the original building in the Reserve to create different elements such as: paths, furniture, structures, shelters, as well as sculptural pieces. m:1 m:1

m:2

m:1

m:3

m:1 m:2

m:1

Meditation North Section

SOUTH Section

Just Dance

Salsa time

THE WATER FALL

H H TEL TEL HOSPITALITY HOSPITALITY INNOVATION INNOVATION LAB LAB

SS I XI XRR OO OOM M S SOF OFT T HE HEF F UT UT UR UR EE ARRIVING BY BOAT

WINGS

A A

B B

C C

D D

E E

F F

G G

PROJECT: HOSPITALITY INNOVATION LAB PROJECT: PROJECT: HOSPITALITY HOSPITALITY INNOVATION INNOVATION SIX LABHOTEL LABROOMS OF THE FUTURE SIX HOTEL SIX ROOMS HOTEL ROOMS OF THE OF THE PROJECT: FUTURE FUTURE HOSPITALITY INNOVATION LAB

A A

34'-6"

3' 13'-1181"

13'-1181" 3'

3' 15" 3' 3'-10 16

D D

C 15 1" 4' 4'3'-1016" 6'-116

20'-0"

1" 3'6'-1162'-11"

3' 4' 2'-11" 4'

1" 4' 6'-116

20'-0"

134'-6"

20'-0"

E E

134'-6" 20'-0"

1" 3'6'-1162'-11"

F F

3' 4' 2'-11" 4'

1" 4' 6'-116

20'-0"

20'-0" 1" 3'6'-1162'-11"

G G

3' 4' 2'-11" 4'

1" 4' 6'-116

20'-0"

G 20'-0"

20'-0" 1" 3'6'-1162'-11"

3' 4' 2'-11" 4'

1" 4' 6'-116

20'-0" 1" 3'6'-1162'-11"

1' 3' 2'-11" 3'-6"

3'-6"

134'-6" 34'-6" 15 1 1' 3'-616" 3'-116"

15'-1115 15'-1115 16" 16" 15 18'-516" 18'-515 16"

9" 25'-516 7'

WALLS: 5/8” gypsum board, NOTE: NOTE: 4” X 1” painted wood base, WALLS: 5/8” WALLS: gypsum board, 5/8” gypsum board, MULLIONS: 2” X 4” aluminum storefront 4” X 1” painted 4” wood X 1” painted base, wood base, glazing system MULLIONS: 2” MULLIONS: X 4” aluminum 2” X storefront 4” aluminum storefront NOTE: glazing system glazing system WALLS: 5/8” gypsum board,

3'-1015 16"

3' 6"

9" 25'-516 15'-1115 16" 18'-515 16" 3'

20'-0"

13'-1181"

25'-5 9 " 16

NOTE:

C C

1 " 3'-11'15"3'-6 13'" 3'-115" 1' 3'-616 16 16 16

2 2

SIX HOTEL ROOMS OF THE FUTURE

1 1

B B

15 11'-916"

15 11'-9 6" 3'16"

3' 1'-6"

1'-6"

2'-6"

5' 2'-9"

2'-9"

1'-6" 1 4'-8 " 2'-6"2

4'-821"

4'-9"

11'-915" 16

3'-6" 13'-7 2' 15" 16 3'-0" 2'-71" 2 7"

2'-721"

4'-9"

6" 3' 3'-0" 3'-2 7 " 3'-0" 3'-6" 16

5' 2'-721" 4'-121"

4'-9"

3'-0"

15 13'-7 6" 16"

6" 3' 7 3'-2 7 " 3'-6" 3'-216 2' " 16

4'-121"

4'-9"

3'-0" 7"5'-0" 1 4'-12"

4'-9"

5'-0"

1" 6'-116

20'-0" 3'

2'-11"

6" 3'-0"

7 13'-778" 14'-18" 6"3'-0" 3'-0" 4'-6 1 " 4'-6 1 " 16 16 7" 7"

6" 5'-0"

6'-6" 3'-0" 7"

6'-6"

2'-11"

1" 6'-116

2'-11"

1" 6'-116

20'-0" 3'

2'-11"

1" 6'-116

3'-6"

2'-11"

1' 9"

7 7 7 7 13'-7 6" 8" 14'-18"13'-78" 14'-18"

4'-9"

20'-0"

20'-0" 3'

13'-715 16"

1" 6'-116

3'-0" 1" 4'-616 5'-10" 3'-0"

6'-6"

7 7 14'-178" 14'-178" 14'-18" 14'-18"

11" 6"

5'-10"

14'-178" 14'-178" 3'-7" 3'-7" 3'-7"

3'-0"

5'-10"

3'-7"

11" 6'-6"

3'-0"

7 13'-778" 14'-18" 6"3'-0" 3'-7" 3'-0" 7"

6'-6"

3'-7" 3'-7" 5'-10" 5'-10" 11" 3'-0" 3'-0" 3" 3'-0" 3" 6'-6" 5'-10"

7 7 13'-77" 14'-18" 13'-77" 14'-18" 8 8

3'-0" 3"

6'-6" 3'-0" 7" 3'-0" 6'-6"

3'-0"

11" 3'-0" 3'-7" 5'-10" 11" 3'-0"

7" 6'-6"

3'-0"

3'-7"

7 7 14'-178" 14'-178" 14'-18" 14'-18"

14'-178" 14'-178" 3'-7" 3'-7" 3'-7"

11"

3'-0"

3'-0" 6"

5'-10"

3'-7"

11" 6'-6"

3'-0"

6'-6"

3'-7" 3'-7" 5'-10" 5'-10" 11" 3'-0" 3'-0" 3'-0" 6'-6" 5'-10"

13'-77" 8

3'-0"

6'-6"

3'-0"

6'-6"

18'-215" 16

30'-815" 16 18'-215 16"

6'-6"

3'-0"

5'-10" 11" 3'-0"

3'-0"

30'-815" 16

30'-815" 9'-6" 16

5'-10"

5 4'-88"

2'-9"

6'-10"

3'-0" 11'-3" 3 6'-08" 4'-885"

NOTE: 3'-0"

WALLS: 5/8” gypsum board, 5 4'-84” 8" X 1” painted wood base,

MULLIONS: 2” X 4” aluminum storefront 11'-3" glazing system 6'-03" 8

11'-3"

6'-10"

glazing system

3 EXISTING3HOTEL 3

SUITE HOTEL HOTEL SUITESUITE

HOTEL SUITE

15 15 H O T E L 15

10 H10 O T E L 10

SUITE HOTEL HOTEL SUITESUITE HOTEL SUITE

5 5T E L 5 HO

SUITE HOTEL HOTEL SUITESUITE

HOTEL SUITE

1 1T E L 1 HO

SUITE HOTEL HOTEL SUITESUITE

HOTEL SUITE

0 0T E L 0 HO

SUITE HOTEL HOTEL SUITESUITE

HOTEL SUITE

SUITES EXISTING EXISTING HOTEL HOTEL SUITES SUITES N

0’

5’

10’

SCALE

EXISTING HOTEL 0’ 5’ 0’ 5’ 10’ SUITES SCALE SCALE N

0’ SCALE

5’

6'-083"

MULLIONS: 2” X 4” aluminum storefront

20 H 20 O T E L 20

2 2

9'-6"

5'-10"

4” X 1” painted wood base,

18'-215 16"

11"

3'-0" 9'-6"

4'-821"

3'-0"

3'-0" 7" 3'-0"

1 1

13'-778" 17'-815 17'-815" 16" 16

13'-778" 6"3'-0" 17'-815" 3'-0" 16 7" 11" 7"

PROJECT: HOSPITALITY INNOVATION LAB PROJECT: PROJECT: HOSPITALITY INNOVATION HOSPITALITY INNOVATION SIX LABROOMS OF THE LABHOTEL FUTURE SIX HOTEL SIX HOTEL ROOMSROOMS OF THEOF THE PROJECT: FUTURE FUTURE HOSPITALITY INNOVATION LAB NOTE: ALL DIMENSIONS NOTE: ALL DIMENSIONS TO THEOF EDGE AREHOTEL TOARE THE EDGE OF SIX ROOMS THEOF FINISHED MATERIALS FINISHED MATERIALS FUTURE UNLESS UNLESS NOTEDNOTED OTHERWISE OTHERWISE NOTE: ALL DIMENSIONS ARE TO THE EDGE OF FINISHED MATERIALS UNLESS NOTED 9" OTHERWISE

A.1 A.1 A.1 10’

A.1

10’

3 EXISTING3 HOTEL3

20 H 20 O T E L 20

15 H15 O T E L 15

10 H10 O T E L 10

SUITE H O T E LH O T E L S U I T ES U I T E HOTEL SUITE

SUITE H O T E LH O T E L S U I T ES U I T E

HOTEL SUITE

SUITE H O T E LH O T E L S U I T ES U I T E HOTEL SUITE

5 5T E L 5 HO

SUITE H O T E LH O T E L S U I T ES U I T E

HOTEL SUITE

1 1T E L 1 HO

SUITE H O T E LH O T E L S U I T ES U I T E

HOTEL SUITE

0 0T E L 0 HO

SUITE H O T E LH O T E L S U I T ES U I T E

HOTEL SUITE

SUITES EXISTING EXISTING HOTEL HOTEL SUITES SUITES

0’

5’

10’

SCALE

EXISTING HOTEL 5’ 0’ 5’0’ 10’ SUITES SCALE SCALE

0’ SCALE

5’

A.1 A.2 A.2 10’

A.2

10’

PARAPET ROOF

B A

A A A A

C B B B B B

D CC C C C

E DD D D D

E E E E E

FF F F F F

GG G G GG

PROJECT: HOSPITALITY INNOVATION PROJECT: LAB PROJECT:INNOVATION HOSPITALITY HOSPITALITY INNOVATION PROJECT: LABHOTEL SIX ROOMS OF THE HOSPITALITY INNOVATION LAB FUTURE PROJECT: LABHOTEL ROOMS OF THE SIX PROJECT: HOSPITALITY INNOVATION SIX HOTEL ROOMS OF THE FUTURE PROJECT: HOSPITALITY INNOVATION LAB SIX FUTURE HOTEL ROOMS OF THE HOSPITALITY INNOVATION OUTLETS LAB FUTURE LAB SIX OUTLETS HOTEL ROOMS OF THE 110v DUPLEX RECEPTACLE FUTURE GROUND FAULT INTERFACE RECEPTACLE 110v DUPLEX RECEPTACLE SIX ROOMS OFTHE THE 110v DUPLEX RECEPTACLE SIXHOTEL HOTEL ROOMS OF WEATHERPROOF GROUND FAULT GROUND FAULT INTERFACE RECEPTACLE OUTLETS FUTURE GROUND FAULT INTERFACE RECEPTACLE FUTURE INTERFACE RECEPTACLE OUTLETS

WEATHERPROOF GROUND FAULT

110v DUPLEX RECEPTACLE WEATHERPROOF GROUND FAULT INTERFACE RECEPTACLE GROUND FAULT INTERFACE RECEPTACLE 220v OUTLET

110v HARDWIRE FOR GARBAGE DISPOSAL OUTLETS OUTLETS INTERFACE RECEPTACLE

110v HARDWIRE FOR GARBAGE DISPOSAL 110vDUPLEX DUPLEX RECEPTACLE 110v FOR GARBAGE DISPOSAL GAS HARDWIRE OUTLET RECEPTACLE WEATHERPROOF GROUND FAULT 220v OUTLET 220v OUTLET GROUND FAULT INTERFACE INTERFACE RECEPTACLE GROUND FAULT INTERFACERECEPTACLE RECEPTACLE SMOKE DETECTOR GAS OUTLET GAS OUTLET 110v HARDWIRE FOR GARBAGE DISPOSAL WEATHERPROOF GROUND FAULT SWITCHES WEATHERPROOF GROUND FAULT SMOKE DETECTOR INTERFACE RECEPTACLE SMOKE DETECTOR 220v OUTLET INTERFACE RECEPTACLE

SINGLE POLE SWITCH 110v GAS HARDWIRE OUTLET SWITCHES 3-WAY SWITCH FOR GARBAGE DISPOSAL SWITCHES 110v HARDWIRE FOR GARBAGE DISPOSAL 220v OUTLET DIMMER SWITCH SINGLE POLE SWITCH SMOKE DETECTOR SINGLE POLE SWITCH 220v OUTLET 3-WAY DIMMER SWITCH 3-WAY SWITCH GAS OUTLET 3-WAY SWITCH SWITCHES 4-WAY SWITCH GAS OUTLET DIMMER SWITCH DIMMER SWITCH SMOKE POLE DETECTOR SINGLE SWITCH HINGE SWITCH 3-WAY DIMMER SWITCH SWITCH 3-WAY DIMMER SMOKE DETECTOR 3-WAY SWITCH SWITCHES SMOKE DETECTOR 4-WAY SWITCH 4-WAY SWITCH DIMMER SWITCH TELEPHONE JACK SINGLE POLE SWITCH HINGE SWITCH SWITCHES HINGE 3-WAY DIMMER SWITCH SWITCH DATA/NETWORKING 3-WAY SWITCH SMOKE DETECTOR SINGLE POLE SWITCH SMOKE DETECTOR 4-WAY SWITCH CHIMES DIMMER SWITCH TELEPHONE JACK 3-WAY TELEPHONE JACK HINGESWITCH SWITCH FLOOR MOUNTED DUPLEX OUTLET 3-WAY DIMMER SWITCH DATA/NETWORKING DATA/NETWORKING DIMMER SWITCH TELEPHONE JACK SMOKESWITCH DETECTOR FLOOR MOUNTED 4-WAY CHIMES CHIMES TELEPHONE JACK 3-WAY SWITCH HINGEDIMMER SWITCH FLOOR MOUNTED DUPLEX OUTLET MISC. DATA/NETWORKING FLOOR MOUNTED DUPLEX OUTLET 4-WAY SMOKE DETECTOR FLOORSWITCH MOUNTED TELEPHONE JACK CHIMES FLOOR MOUNTED TELEPHONE JACK HINGE SWITCH TELEPHONE JACK CIRCULATION FAN MISC. FLOOR MOUNTED DUPLEX OUTLET DATA/NETWORKING SMOKE DETECTOR MISC. DOOR BELL TELEPHONE JACK FLOOR MOUNTED CHIMES TELEPHONE JACK FAN CIRCULATION CABLE TV JACK FLOOR MOUNTED DUPLEX OUTLET CIRCULATION FAN MISC. DATA/NETWORKING DOOR BELL FLOOR MOUNTED TELEPHONE JACK JUNCTION BOX FOR FUTURE CEILING FAN CHIMES DOORFAN BELL CIRCULATION CABLE TV JACK MISC. FLOOR MOUNTED DUPLEX OUTLET RECESSED SPEAKER CABLE TV JACK DOOR BELL JUNCTION BOX FOR FUTURE CEILING FAN FLOOR MOUNTED TELEPHONE WALL MOUNTED SURROUND JACK SOUND CIRCULATION FAN JUNCTION BOX FOR FUTURE CEILING FAN CABLE TV JACK RECESSED SPEAKER MISC. ELECTRICAL DOOR BELL PANEL JUNCTION BOX FOR FUTURE SOUND CEILING FAN RECESSED SPEAKER WALL MOUNTED SURROUND CABLE TV JACKFAN CIRCULATION RECESSED SPEAKER WALL MOUNTED SURROUND SOUND ELECTRICAL PANEL JUNCTION BOX FOR FUTURE CEILING FAN LIGHTS DOOR BELL WALL MOUNTED SURROUND ELECTRICAL PANEL SOUND RECESSED SPEAKER ELECTRICAL PANEL CABLE TV JACK EXTERIOR FLOOD LIGHT LIGHTS WALL MOUNTED SURROUND SOUND BOX FOR FUTURE CEILING FAN NOTE: JUNCTION (1’X4’)2’X4’ WALL MOUNTED ELECTRICAL PANEL LIGHTS EXTERIOR FLOOD LIGHT RECESSED SPEAKER FLUORESCENT LIGHTS WALLS: 5/8” gypsum board, (1’X4’)2’X4’ WALL MOUNTED EXTERIOR FLOOD LIGHT CEILING FAN WITHSURROUND LIGHT WALL MOUNTED SOUND EXTERIOR FLOOD LIGHT FLUORESCENT LIGHTS 4” X 1” painted wood base, (1’X4’)2’X4’ WALL MOUNTED FIXTURE ELECTRICAL PANEL (1’X4’)2’X4’ WALL MOUNTED CEILING FAN WITH LIGHT WALL WASHER (EYEBALL) FIXTURE FLUORESCENT EXTERIOR FLOOD LIGHT storefront MULLIONS: 2” X 4” aluminum FLUORESCENT FIXTURE WALL MOUNTED (SCONCE) CEILING FAN WITH LIGHT (1’X4’)2’X4’ WALL FIXTURE MOUNTED CEILING FAN WITH LIGHT FIXTURE WALL WASHER (EYEBALL) glazing system LIGHTS RECESSED LIGHT FIXTURE FLUORESCENT FIXTURE FIXTURE WALL MOUNTED FIXTURE (SCONCE) SURFACE MOUNTED FIXTURE CEILING FAN WITH LIGHT WALL WASHER (EYEBALL) EXTERIOR FLOOD LIGHTFIXTURE FIXTURE WALL WASHER (EYEBALL) RECESSED LIGHT FIXTURE DECORATIVE PENDANT FIXTURE FIXTURE WALL MOUNTED FIXTURE WALL MOUNTED FIXTURE (SCONCE)(SCONCE) (1’X4’)2’X4’ WALL MOUNTED SURFACE MOUNTED FIXTURE 6”x1’-6”WASHER FLUOURESCENT WITH 2 OUTLETS WALL (EYEBALL) FIXTURE RECESSED LIGHT FIXTURE RECESSED LIGHT FIXTURE DECORATIVE PENDANT FIXTURE FLUORESCENT WATER RESISTANT LIGHT FIXTURE WALL MOUNTED FIXTURE (SCONCE) SURFACE MOUNTED SURFACE MOUNTED FIXTURE 6”x1’-6” FLUOURESCENT WITH FIXTURE 2 OUTLETS CEILING FAN WITH LIGHT TRACK LIGHTS RECESSED LIGHT FIXTURE DECORATIVE PENDANT FIXTURE DECORATIVE PENDANT FIXTURE WATER RESISTANT LIGHT FIXTURE FIXTURE MR16 SURFACE MOUNTED FIXTURE 6”x1’-6” FLUOURESCENT WITH 2 OUTLETS 6”x1’-6” FLUOURESCENT WITH 2 OUTLETS TRACK LIGHTS WELL WASHER LIGHT PENDANT WALL (EYEBALL) FIXTURE DECORATIVE FIXTURE WATER RESISTANT LIGHT FIXTURE MR16 WATER RESISTANT LIGHT FIXTURE 18”x18” CANOPY FIXTURE WALL MOUNTED FIXTURE (SCONCE) 6”x1’-6” FLUOURESCENT WITH 2 OUTLETS TRACK LIGHTS WELL LIGHT TRACK LIGHTS WATER RESISTANT LIGHT FIXTURE RECESSED LIGHT FIXTURE MR16 18”x18” CANOPY MR16 FIXTURE TRACK LIGHTS SURFACE MOUNTED FIXTURE WELL LIGHT WELL LIGHT MR16 DECORATIVE PENDANT 18”x18” CANOPY FIXTURE FIXTURE N 18”x18” CANOPY FIXTURE WELL LIGHT

20 HOTEL SUITE

20 20 HOTEL UITE OTEL 20 SHS 20 20 UITE HOTEL

H O T E LS U I T E HOTEL SUITE SUITE

15 HOTEL SUITE

15 15 HOTEL UITE OTEL 15SHS15 15 UITE HOTEL

H O TSEU LITE HOTEL SUITE SUITE

10 10 HOTEL 10 10 S10 UITE HOTEL S10 UITE HOTEL

HOTEL TU E ILT E S U I T E H OS HOTEL SUITE

HOTEL SUITE

SUITE

5 5 HOTEL 5I T E SU H5 OTEL 5I T E SU HOTEL

HOTEL OUT IETLE S S U I T E HH OTEL SUITE

HOTEL SUITE

SUITE

1 1 1 HSH OO1U1TTI TEEELL S1 UITE HOTEL

HOTEL HU OITTEEL S SUITE HOTEL SUITE

SUITE

HOTEL SUITE

0 0 0HSH OOU0TTI0TEEELL 0I T E SU HOTEL

HOTEL HEIOTTEE L S U SUH I TO TEL SUITE SUITE

HOTEL SUITE

EXISTING HOTEL SUITES EXISTING HOTEL ELECTRICAL PLAN 6”x1’-6” FLUOURESCENT WITH 2 OUTLETS SUITES EXISTING 18”x18” CANOPYHOTEL FIXTURE N EXISTING HOTEL WATER RESISTANT LIGHT FIXTURE ELECTRICAL PLAN EXISTING HOTEL SUITES NN SUITES TRACK LIGHTS 0’ 5’ EXISTING HOTEL10’ SUITES PLAN NMR16 SCALEELECTRICAL SUITES 0’N 5’ ELECTRICAL 10’ PLAN WELL LIGHT SCALEELECTRICAL PLAN

A.3 A.3 SUITES A.3 ELECTRICAL PLAN A.1 A.3 A.3

18”x18” 5’ CANOPY FIXTURE 5’ 10’10’ 5’ SCALE0’ SCALE 0’ 5’ 10’ SCALE EXISTING HOTEL

0’0’

SCALE

0’

5’

10’

SCALE

10’

2'-112" PARAPET ROOF

BOTTOM OF STRUCTURE

8' 1" 2'-11 2

6" I-BEAM PARAPET ROOF

BOTTOM OF STRUCTURE

SIXLAB HOTEL ROOMS OF THE FUTURE

8' 1" 2'-11 2

BOTTOM OF CEILING 6" I-BEAM BOTTOM OF STRUCTURE PARAPET ROOF

8' BOTTOM OF CEILING 6" I-BEAM 1" PARAPETROOF ROOF 2'-112 PARAPET 1" PARAPET BOTTOM OFROOF STRUCTURE 8'-1111 8' 2'-1116 2'-11 ""

SIX HOTEL ROOMS OF THE FUTURE

PROJECT:

22 1

BOTTOM OF CEILING

HOSPITALITY PROJECT: INNOVATION PROJECT: PROJECT: INNOVATION LAB HOSPITALITY INNOVATION HOSPITALITY HOSPITALITY INNOVATION LAB 16 1"LAB 8'8'1 2'-11 " 2'-11 SIX HOTEL ROOMS OF THE 2 1 LAB 28' 1 " 2'-11 7'-52" 2FUTURE 1" 8'-11 SIX HOTEL ROOMS ROOMS OF OF THE THE 16 HOTEL 8' SIX SIX HOTEL ROOMS OF THE FUTURE 1" FUTURE 7'-52 1 FUTURE 8'-11 8'8'16"

BOTTOMOF OF STRUCTURE2'-11 " BOTTOM 6" I-BEAM STRUCTURE 2

8'-11 1 " 16

PARAPET BOTTOMROOF OF STRUCTURE

8' 1" OFBOTTOM FLOOR OF CEILING I-BEAM 6"6"TOP I-BEAM 2'-11 PARAPETROOF ROOF 2 PARAPET 6" I-BEAM BOTTOM OF STRUCTURE 8'-11 1 " PARAPET ROOF TOP FLOOR 6" I-BEAM BOTTOM OF OF CEILING 6" I-BEAM BOTTOM OFSTRUCTURE STRUCTURE BOTTOM OF

BOTTOM OF STRUCTURE TOP OF OF FLOOR BOTTOM CEILING BOTTOM OF CEILING I-BEAM 6"6"I-BEAM 6" I-BEAM BOTTOM OF CEILING FLOOR BELOW 6" I-BEAM

6" I-BEAM BOTTOM OF OF CEILING TOP FLOOR

1" 7'-52

2'-0"X2'0" DROP CEILING

FLOOR BELOW 8'-1111

8'-11 16"" 16

BOTTOMOF OFCEILING CEILING 8'-11 1 " BOTTOM TOP OF FLOOR 16 6" I-BEAM FLOOR BELOW BOTTOM OF CEILING

1" 7'-52

1" 2'-0"X2'0" DROP CEILING 8'-11 16

TOPOF OF FLOOR FLOOR TOP 6" I-BEAM

NORTH SECTION

1" 7'-52 1

2'-0"X2'0" DROP CEILING

TOP OF FLOOR FLOOR BELOW 8'-111

8'-11 16"" 16 8'-11 1 " 16 11" 7'-5 7'-5 2'-0"X2'0" DROP CEILING 6" I-BEAM 22" 1 7'-52 " TOP OF FLOOR 6" I-BEAM

NORTH SECTION

TOP OF FLOOR

I-BEAM 6"6"I-BEAM

NORTH SECTION

FLOOR BELOW

1" 7'-52

TOP OF FLOOR

2'-0"X2'0" CEILING TOP OF DROP FLOOR FLOORBELOW BELOW FLOOR

FLOOR BELOW

I-BEAM 6"6"FLOOR I-BEAM 1" BELOW 7'-512 7'-5 2'-0"X2'0" DROPCEILING CEILING 6" I-BEAM 2'-0"X2'0" DROP 2" 1

7'-52"

2'-0"X2'0" DROP CEILING

NORTH SECTION

2'-0"X2'0" DROP CEILING

FLOORBELOW BELOW FLOOR FLOOR BELOW

A1 A1 A1

NORTH SECTION SECTION NORTH NORTH SECTION

2'-0"X2'0"DROP DROPCEILING CEILING 2'-0"X2'0" 2'-0"X2'0" DROP CEILING

A1 A2

A1 A1 A1

PARAPET ROOF

1" 2'-112

BOTTOM OF STRUCTURE

6" I-BEAM PARAPET ROOF PARAPET ROOF

SOUTH SECTION

8' 1"2'-11 1" 2'-11 2 2

BOTTOM OF STRUCTURE BOTTOM OF STRUCTURE

BOTTOM OF CEILING 6" I-BEAM 6" I-BEAM

PARAPET ROOF

8' 8' 1 1"2'-112" 2'-112 BOTTOM OF STRUCTURE BOTTOM OF STRUCTURE 8'-11 1 " 16 BOTTOM OF CEILING

BOTTOM OF CEILING 6" I-BEAM 6" I-BEAM PARAPET ROOF PARAPET ROOF PARAPET ROOF

PARAPET ROOF

1" 8' 2'-11 1 8'12 2'-11 2'-11 22""1 BOTTOMOF OFSTRUCTURE STRUCTURE2'-11 BOTTOM 1 2" BOTTOM OF STRUCTURE

SOUTH SECTION

A2 A2 A2

SOUTH SECTION

TOP OF FLOOR

SOUTH SECTION

8'-11 " BOTTOM OF STRUCTURE16 8'-11 1 "

BOTTOM OF CEILING 6" I-BEAM OF CEILING I-BEAM 1" 6"6"BOTTOM I-BEAM 6" I-BEAM 7'-52 PARAPETROOF ROOF PARAPET 6" I-BEAM PARAPET ROOF

SOUTH SECTION SECTION SOUTH SOUTH SECTION

8'11" 8'8' 2'-11 2'-11 2" 1 28' TOP OF FLOOR BOTTOM OFSTRUCTURE STRUCTURE2'-11 " FLOOROF BELOW BOTTOM 2 1" BOTTOM OF STRUCTURE 8'-11 18'-11 " 16 16 6" I-BEAMOF CEILING BOTTOM TOP OF FLOOR

BOTTOMOF OF CEILING 1" BOTTOM I-BEAM CEILING 6"6"I-BEAM 7'-52 2'-0"X2'0"6"DROP CEILING BOTTOM I-BEAM OF CEILING 6" I-BEAM TOP OF FLOOR OF FLOOR FLOOR TOP BELOW

8'8'

EXISTING HOTEL SUITES SECTION

1" 7'-52

8'-1111 " FLOOR BELOW 8'-11 16"

8'-11 16" 16

BOTTOMOF OFCEILING CEILING 8'-11 1 " BOTTOM 6" I-BEAM 2'-0"X2'0" DROP CEILING 1 16 6" I-BEAM BOTTOM OF CEILING7'-5 "

2 7'-5 1" 2'-0"X2'0" DROP CEILING

TOP OF FLOOR

FLOOR BELOW

0’ SCALE

TOPOF OF FLOOR FLOOR TOP

TOP OF FLOOR FLOOR BELOW 8'-1111

6" I-BEAM

8'-11 16"" 16 8'-11 1 1

I-BEAM DROP CEILING7'-52"16 2'-0"X2'0" 6"6" I-BEAM 1

7'-51 " 1" 7'-52

TOPOF OF FLOOR FLOOR TOP FLOOR BELOW

0’

FLOOR BELOW

2'-0"X2'0" DROP CEILING

I-BEAM 6"6"I-BEAM 1" 7'-512 7'-5 2'-0"X2'0" DROPCEILING CEILING 6" I-BEAM 2'-0"X2'0" DROP 2" 1

7'-52"

2'-0"X2'0" DROP CEILING

FLOORBELOW BELOW FLOOR FLOOR BELOW

A2 A2 A2

A.6 5’

10’

SCALE

TOP OF FLOOR FLOORBELOW BELOW FLOOR

EXISTING HOTEL 5’ 10’ SUITES SECTION

EXISTING HOTEL SUITES SECTION

7'-5 2'-0"X2'0" DROP CEILING 6" I-BEAM 22"

2'-0"X2'0"DROP DROPCEILING CEILING 2'-0"X2'0" 2'-0"X2'0" DROP CEILING

A.3

PROJECT: HOSPITALITY PROJECT: INNOVATION LABHOSPITALITY INNOVATION

1" 2'-112

BOTTOM OF STRUCTURE 6" I-BEAM PARAPET ROOF

0’

EXISTING HOTEL 10’ EXISTING HOTEL 5’ EXISTING HOTEL SUITES SECTION

A.6

SUITES SECTION SECTION SUITES SCALE

A.6

0’ 5’ 0’ 5’ 0’ 5’ SCALE SCALE SCALE

A.6 A.6

10’ 10’ 10’

PARAPET ROOFROOF PARAPET

PARAPET ROOF PARAPET ROOF

1" 2'-112

ABOVE ROOFABOVE ROOF

BOTTOM OF STRUCTURE BOTTOM OF STRUCTURE

6" I-BEAM PARAPET ROOF

PARAPET ROOF PARAPET ROOF

2'-11 2121"" ABOVE ROOF 2'-11 ABOVE ROOF 1

2 2'-11 ABOVE ROOF CEILING HEIGHT 2'-11 PARAPET ROOF ABOVE ROOF 22"" 6" I-BEAM ABOVE ROOF CEILING HEIGHT ABOVE 6" I-BEAM ABOVEROOF ROOF 6" I-BEAM 1" 6" I-BEAM 2'-112 6" I-BEAM 6" I-BEAM PARAPET 6"6"I-BEAM ABOVEROOF ROOF I-BEAM PARAPET ROOF 8' 8'

8' 3

" 8' 7'-1111 2'-11216 " 7'-11 PARAPET ROOF8' " 2'-11 PARAPET ROOF PARAPET ROOF 2" 8' PARAPET ROOF 16 PARAPET ABOVEROOF ROOF ABOVE ROOF 11" CEILINGCEILING HEIGHT 2'-11 121 HEIGHT PARAPET ROOF 2'-11 1"21"" 8' CEILING HEIGHT 2'-11 PARAPET ROOF 2'-11 2'-11 TOP OF FLOOR 22 2'-11 6" I-BEAM ABOVE ROOF 22"" CEILING HEIGHT

3 6"ROOF I-BEAM 8' PARAPET 8'

6" I-BEAM ABOVE ROOF CEILING HEIGHT ABOVE ROOF 11" ABOVE ROOF CEILING HEIGHT ABOVE ROOF TOP OF FLOOR ABOVE ROOF 2'-11 CEILING " 2'-1122 CEILINGHEIGHT HEIGHT 6" I-BEAM6" ABOVE ROOF I-BEAM 6" I-BEAM ABOVE ROOF 8' 6"6" I-BEAM CEILING HEIGHT 8' 6"6"I-BEAM I-BEAM 3 "11 33 I-BEAM 7'-11 7'-11 7'-5 " "" 6" I-BEAM 7'-11 16 1616

6" I-BEAM 6" I-BEAM 11 3

3 7'-11 7'-5 "8' 8' 3""" 7'-11 8' 8' 1616 7'-11 8' 38' 16 3" 16 7'-11 7'-1116 CEILING HEIGHT 16"

8'8' CEILING FLOORHEIGHT BELOW OF FLOOR TOP OFTOP FLOOR 7'-11 3 " TOP OF FLOOR 16

FLOOR BELOW CEILING HEIGHT TOP OF FLOOR CEILING HEIGHT TOP OF FLOOR CEILING HEIGHT CEILING HEIGHT CEILING HEIGHT TOP OF FLOOR CEILING HEIGHT 6" I-BEAM TOP FLOOR TOPOF OFI-BEAM FLOOR 6" I-BEAM 6" CEILING HEIGHT

CEILING HEIGHT 3 11 7'-5 11 TOP OF FLOOR 3"11"" 7'-11 7'-5

7'-5 " 16 " 7'-11 1616 1616 11 11 7'-5 11"3""33" 7'-5 16 7'-11 7'-5 3 11 16 6" I-BEAM 11"16 7'-11 33"""" 7'-11 16 7'-11 7'-5 7'-5 " 16 7'-11 FLOOR BELOW 16 " 7'-11 11"33" FLOOR 16 BELOW 1616 16 16 7'-11 FLOOR BELOW 7'-5 " 7'-1116 TOP OF FLOOR

TOP OF FLOOR FLOOR BELOW FLOOR BELOW FLOOR BELOW TOP OF FLOOR FLOOR BELOW FLOOR BELOW TOP OF FLOOR TOP OF FLOOR TOP OF FLOOR 6" I-BEAM TOP FLOOR FLOOR BELOW TOPOF OFI-BEAM FLOOR 6" TOP OF FLOOR

SPA

16 16

A311" 7'-5 7'-516 16" 11 A3 11"" 7'-5 11 6" I-BEAM 11 7'-5 11 16 7'-5 """ 11 11 7'-5 16 7'-5 11" 16 7'-5 " 7'-5 16 7'-516 FLOOR BELOW 16 FLOOR BELOW 16 16" TOP OF FLOOR 11

6" I-BEAM 6" I-BEAM 6"6" I-BEAM 6"6"I-BEAM I-BEAM I-BEAM6" I-BEAM

FLOOR BELOW FLOOR BELOW FLOOR BELOW FLOOR BELOW FLOOR BELOW FLOOR FLOORBELOW BELOW FLOOR BELOW

SPA SPA SPA SPASPA

A3 A3 A3 A3 A3

PARAPET ROOF PARAPET ROOF PARAPET ROOF

PROJECT: PROJECT: HOSPITALITY INNOVATION HOSPITALITY INNOVATION 2 2LAB 1" LAB 2'-11

BOTTOM OF OF CEILING BOTTOM STRUCTURE 6" I-BEAM BOTTOM OF BOTTOM OFSTRUCTURE STRUCTURE

1" 2'-112 6" I-BEAM 6" I-BEAM PARAPET ROOF I-BEAM 8' FUTURE BOTTOM6"OF STRUCTURE PARAPET 8' ROOF 6"6"I-BEAM I-BEAM 8' HOSPITALITY 1 8'-11 1 " 8'8' PARAPET ROOF 16 8' 2'-11 1"PROJECT: 6" I-BEAM 6" I-BEAM

ABOVE ROOF ABOVE ROOF CEILING HEIGHT

INNOVATION

FUTURE LAB SIX HOTEL ROOMS OF THE 8'8' SIX SIX HOTEL HOTEL ROOMS ROOMS OF OF THE THE FUTURE 11" 8'-11 1 "FUTURE SPA SECTION 8'-11 FUTURE HOTEL ROOMS OF THE 6" I-BEAM 8'-11 " SIX 16 16 HAND RAIL HAND 3'-6' RAIL 3'-6' 1 6" I-BEAM 16 8'8' HAND RAIL 3'-6' 7'-52" 6" I-BEAM 1 SPA SECTION 8' 1 " 8'-11 8' FUTURE 8' 6" I-BEAM 1 8'-11 8'" HAND RAIL 3'-6' 116 2

6" 6"6"I-BEAM I-BEAM I-BEAM

6" I-BEAM I-BEAM 6" I-BEAM 7'-511" TOP6"OF FLOOR HAND RAIL 3'-6'

11" 8'-11 8'-11 116 "

SPA SECTION ROOM SECTION

6" I-BEAM 6" I-BEAM

8’

FLOOR BELOW FLOOR BELOW

A4 A4 A4

2'-11 2"

SPA

2'-11 11"8'

2 " 2'-11 PARAPET ROOF 2 4 12" STEEL COLUMN BOTTOM OF STRUCTURE

BOTTOM OF STRUCTURE 2'-0"X2'0" DROP CEILING

8' 8' 8' PARAPET 1" ROOF 8' 4 12"1STEEL COLUMN PARAPET ROOF 7'-5 4 12"2'-0"X2'0" STEEL COLUMN COLUMN 4DROP 8'8' 21" STEEL CEILING 2OF COLUMN BOTTOM CEILING 2'-0"X2'0" DROP CEILING TOP 4OF FLOOR 2" STEEL

2'-0"X2'0" DROP BOTTOM OF CEILING 2 " CEILING1" 2'-11 BOTTOM OF CEILING2 2'-11 1

33" FLOOR 6" BELOW 6"I-BEAM I-BEAM COLUMN 4 12" STEEL 16 7'-11 " TOP OF 8' FLOOR 16 8'1 7'-11 16 8' 8'8'8' 8'8'

4 12"1STEEL COLUMN 4 2" STEEL COLUMN 1 TOP FLOOR COLUMN 4OF " STEEL 4 21OF BOTTOM OF CEILING TOPCOLUMN FLOOR 2" STEEL I-BEAM 141 1"6" COLUMN STEEL 4 21"2'-0"X2'0" BOTTOM OF CEILING TOP FLOOR 2 STEEL STEEL COLUMN 4 COLUMN DROP CEILING 2"OF

CORRIDOR SECTION CORRIDOR CORRIDORSECTION SECTION

73" " 7'-8 1116 8

EXISTING HOTEL SUITES SECTION

7'-5 1" 2'-0"X2'0" DROP CEILING 2 BOTTOM OF CEILING 6" I-BEAM 2'-0"X2'0" DROP CEILING BOTTOM OF CEILING BOTTOM OF CEILING 1CEILING BOTTOM OF 6"6"I-BEAM I-BEAM 4 12"7'-5 STEEL COLUMN1 BOTTOM OF CEILING BOTTOM OF 2'-0"X2'0" DROP CEILING 2"CEILING 7'-521" 7'-11 33" 2'-0"X2'0" DROP CEILING 7'-521" 7'-11 2'-0"X2'0" DROP CEILING 16 " 4 12" STEEL COLUMN 2'-0"X2'0" CEILING 3 7'-51 " 1 DROP 16 2'-0"X2'0" DROP CEILING COLUMN 4 2"1STEEL 21 7'-11 "7'-5 FLOOR BELOW 3CEILING 2'-0"X2'0" DROP " STEEL COLUMN 4 22'-0"X2'0" DROP CEILING 16 7'-11 "7'-522" " 0’ DROP CEILING 4 12"2'-0"X2'0" STEEL COLUMN 2'-0"X2'0" DROP CEILING 16 2'-0"X2'0" DROP CEILING 3 FLOOR BELOW 4 412"1STEEL COLUMN 7'-11333" 2" STEEL COLUMN FLOOR BELOW 16 7'-11 " SCALE 7'-11 " 3 7'-11 " FLOOR BELOW 3 16 TOP OF FLOOR 16 7'-11 16 " " 7'-11 FLOOR BELOW TOP OF FLOOR 2'-0"X2'0" DROP CEILING16 16 TOP OF FLOOR FLOOR BELOW

FLOOR BELOW

TOP OF FLOOR 2'-0"X2'0" DROP CEILING

6" I-BEAM 2'-0"X2'0" DROP CEILING 6" I-BEAM

TOP FLOOR 2'-0"X2'0" DROP CEILING TOPOF OF FLOOR 2'-0"X2'0" DROP CEILING 1" 6" I-BEAM 7'-52 1" I-BEAM 6"6"6" I-BEAM 7'-52 COLUMN 4 12"1STEEL 6"6"I-BEAM I-BEAM I-BEAM COLUMN 4 2" STEEL

4 12"1STEEL COLUMN 4 2" STEEL COLUMN

1" 0’ 7'-52 1" 7'-52

7'-5111" 2

7'-521 FLOOR BELOW7'-5 1"1"" 7'-5

22" " FLOOR BELOW 7'-5 FLOOR BELOW 4 12"1STEEL COLUMN 7'-5 22 FLOOR BELOW 141 " STEEL COLUMN 2

2'-0"X2'0" DROP CEILING 2'-0"X2'0" DROP CEILING 2'-0"X2'0" DROP 2'-0"X2'0" DROPCEILING CEILING 2'-0"X2'0" 2'-0"X2'0"DROP DROPCEILING CEILING

0’

7'-8 3 " 16

EXISTING HOTEL SUITES SECTION 5’ 10’

3" 7'-8 3 " 16

EXISTING HOTEL A.7 5’

9’

NOTE: ALL DIMENSIONS ARE

OTHERWISE A6A6 A6 -DOORS 7’-9”FINISHES NOTES UNLESS FOR

NOTED MATERIALS TO THE THE EDGE EDGE OF FINISHED FINISHED TOTO THE EDGE FINISHED -FLOOR: CARPET -BASEBOARDS 3”OFOF MATERIALS MATERIALS MATERIALS 8' UNLESS OTHERWISE -WALLS: 5/8” BRD -DOORS 7’-9” 1 GYP. NOTES FOR FINISHES NOTED BOTTOM OF STRUCTURE 16'-11 1UNLESS 16 "OTHERWISE UNLESS OTHERWISE 1 UNLESS OTHERWISE 8' 2" 32'-11 5/8” METAL STUDS BOTTOM OF STRUCTURE 16'-11 16 " A5 NOTED NOTED NOTED -FLOOR: CARPET 1 1 -BASEBOARDS 3” 1 16'-11 BOTTOM BOTTOM OF STRUCTURE OF STRUCTURE 16'-11 " 16 " BOTTOM OF BOTTOM OFCEILING STRUCTURE 16'-11 16 " 16 1 FOR 8' FINISHES BOTTOM OF STRUCTURENOTES 16'-11 16 " -WALLS: 5/8” GYP. BRD 8' -DOORS 7’-9” 7'-9" DOOR/ DROP CEILING 1 FOR 1FOR NOTES FOR FINISHES FINISHES SECTION 1NOTES FINISHES 3 NOTES 5/8” METAL STUDS BOTTOM OF CEILING 8'STRUCTURE BOTTOM BOTTOM OF OF STRUCTURE 16'-11 16'-11 " CORRIDOR BOTTOM OF STRUCTURE 16'-11 -BASEBOARDS 3” 16 " 16 " 16 1 BOTTOM OF STRUCTURE 16'-11 16 "

PARAPET ROOF

5’0’

A.7 5’

SCALE 0’ 5’ 0’0’ 5’5’ SCALE SCALE SCALE

8'-6711" 1116 " 8

11"11 8'-6 " 11" 8'-68'-6 16 16 16

7'-8 3 " 16

117" 8

A.7 A.7

73" " 7'-8 1116 8

7 73" " " 11 " 11711 8 8 8 7'-8 3 " 16

3" 7'-8 3 " 16

3 " 37'-8 " 3" 7'-87'-8 16 16 16 3"

10’

SCALE

10’ 10’ 10’

3" 3"

6" I-BEAM

4 12" STEEL COLUMN

117" 8" 8'-611

3 " 37'-8 " 3" 7'-87'-8 16 16 16

10’

EXISTING EXISTING HOTEL HOTEL SUITES SECTION SUITES SUITESSECTION SECTION

FLOOR BELOW 2'-0"X2'0" DROP CEILING 2'-0"X2'0" DROP CEILING FLOOR BELOW FLOOR BELOW 2'-0"X2'0" DROP CEILING FLOOR BELOW

8'-611" 16

7 7 11711 " " 11 " 3" 8 8 8

EXISTING HOTEL SCALE SUITES SECTION SUITES SECTIONHOTEL EXISTING

COLUMN 4 42"1STEEL STEEL COLUMN COLUMN 4 422""1STEEL 2" STEEL COLUMN FLOOR BELOW 2'-0"X2'0" FLOOR BELOWDROP CEILING

A5 A5 A5

117" 8

CORRIDOR SECTION

2 BOTTOMTOP OF CEILING OF 6" I-BEAM TOP OFFLOOR FLOOR FLOOR BELOW BOTTOM OF CEILING 6" I-BEAM FLOOR 6" BELOW I-BEAM

TOP OF FLOOR DROP CEILING 6" I-BEAM2'-0"X2'0" TOP OF FLOOR TOP FLOOR 2'-0"X2'0" DROP CEILING 6" I-BEAM TOPOF OF FLOOR

7'-8 3 " 16

CORRIDOR SECTION

121" " BOTTOM OFI-BEAM CEILING 6" BOTTOM OF STRUCTURE 2'-11 12'-11 2'-11 121" 3 6" I-BEAM BOTTOM OF STRUCTURE "2'-11 7'-52 22 2'-11 7'-11 BOTTOM OFCEILING STRUCTURE " " 2'-0"X2'0" DROP 2'-0"X2'0" CEILING 22"16 TOP OFDROP FLOOR BOTTOM OF STRUCTURE 2'-0"X2'0" DROP CEILING BOTTOM OF STRUCTURE TOP OF FLOOR BOTTOM OF STRUCTURE 2'-0"X2'0" CEILING 2'-0"X2'0" DROP CEILING BOTTOM OF STRUCTURE 6" I-BEAM 4 21DROP " STEEL COLUMN BOTTOM OF3 STRUCTURE 3 6" I-BEAM 2'-0"X2'0" DROP 2'-0"X2'0"7'-11 DROPCEILING CEILING " 7'-11 3" 8'8' 6" I-BEAM 6"6"I-BEAM 16 16 7'-11 " 3 I-BEAM 6" I-BEAM6"6"I-BEAM I-BEAM 4 12" STEEL COLUMN 7'-1116 "

""1STEEL COLUMN 4 TOP FLOOR STEEL COLUMN 4 4212OF " STEEL COLUMN

8'-611" 16

11"11 8'-6 " 11" 8'-68'-6 16 16 16

CORRIDOR SECTION

16OF"STRUCTURE 7'-11 BOTTOM

7'-521" 7'-52"

8'-6711" 1116 " 8

A5 A5 A5

1" 2'-112 1" 2'-112

"1STEEL COLUMN 4 12"PARAPET STEEL 4 COLUMN 42ROOF 2" STEEL COLUMN 3 PARAPET ROOF 7'-11 PARAPET ROOF 3"

BOTTOM OF CEILING PARAPET ROOF PARAPET ROOF 6" OF I-BEAM 16OF STRUCTURE BOTTOM CEILING BOTTOM PARAPET ROOF 1 BOTTOM OF CEILING PARAPET ROOF FLOOR BELOW 2'-11 " PARAPET ROOF1

3’

MATERIALS -BASEBOARDS 3”

A6 8'

2'-11 1" 2'-11221"

A5 A5

1 16

NOTED SCALE SCALE SCALE

BOTTOM OF STRUCTURE

BOTTOM 7'-11 " STRUCTURE BOTTOM OF CEILINGOF PARAPET PARAPETROOF ROOF 16 2'-11 11"

2'-11121" 8' 28' 2'-11 BOTTOM6"OF STRUCTURE I-BEAM BOTTOM OF STRUCTURE 2'-11 " " BOTTOM OFBOTTOM STRUCTURE COLUMN 4 12"1STEEL OFCEILING STRUCTURE 22 DROP STEEL COLUMN 4 2"2'-0"X2'0" BOTTOM OF STRUCTURE TOP OF FLOOR 6"BOTTOM I-BEAM OF STRUCTURE 6" I-BEAM 6" I-BEAM 7'-11 3 " 8' 6" I-BEAM 16 BOTTOM6"OF CEILING 6"I-BEAM I-BEAM 4 12" STEEL COLUMN 6" I-BEAM BOTTOM OF CEILING

9’

8’

1 BOTTOM OF STRUCTURETO 16'-11 " EDGE THE OF FINISHED 16 NOTE: NOTE: ALL ALL DIMENSIONS DIMENSIONS ARE ARE NOTE: ALL DIMENSIONS ARE

117" 8'-611"8

CORRIDOR SECTION

1" 2'-11 2

PARAPET ROOF

6" I-BEAMPARAPET ROOF PARAPET ROOF PARAPET ROOF3 6" I-BEAM

A6 0’

NOTE: ALL DIMENSIONS ARE NOTES FOR UNLESS OTHERWISE A4 SCALE 3’ 3’ 9’ ROOM BOTTOM OF STRUCTURE 16'-11 0’ 0’" 0’ 3’ FINISHES 9’ 9’ TO THE EDGE OF FINISHED

OF FLOOR OF FLOOR TOPTOP OF TOP FLOOR

8'-611" 16

PARAPET ROOF PARAPET ROOF BOTTOM OF CEILING

NOTED TO THE0’EDGE OF FINISHED 5’ MATERIALS SCALE

FLOOR BELOW FLOOR BELOW

1 16 "

TOP OF FLOOR

CORRIDOR SECTION

6" I-BEAM

7'-11 " SWITCH HEIGHT TOP OF FLOOR 16 AC REGULATOR AC REGULATOR AC REGULATOR AC REGULATOR ELEVATION TOP OF FLOOR FLOOR 3'-1" 4'-1/16" TOP BELOW OF FLOOR ROOM ROOM ELEVATION 7'-11 33" 3 A6 4'-1/16" 4'-1/16" 3" 4'-1/16" A6 SWITCH HEIGHT 16 "7'-11 7'-11 " A6 7'-11 NOTE: ALL SWITCH SWITCH HEIGHT HEIGHT 0’ 3’ DIMENSIONS ARE 9’A6 16 SWITCH HEIGHT 16 16 3'-1" TOP OF FLOOR AC REGULATOR 3'-1" OF FLOOR SCALE 3'-1"3'-1" TOP TO THE EDGE OF FINISHED REGULATOR AC REGULATOR 3 AC AC REGULATOR 4'-1/16" 6" I-BEAM ROOM SECTION 7'-116" I-BEAM "3 3 1 4'-1/16" 4'-1/16" 4'-1/16" SWITCH HEIGHT 7'-5 16 7'-11 " 3MATERIALS "7'-51"" "7'-11 A4 SWITCH SWITCH HEIGHT HEIGHT7'-11 ROOM ELEVATION SWITCH HEIGHT 16 16 16 22 3'-1" ROOM ROOM ELEVATION 0’ ROOM 3’ELEVATION ELEVATION 3'-1" OF FLOORA6 3'-1"3'-1" TOP UNLESS OTHERWISE NOTE: ALL DIMENSIONS ARE SCALE

BOTTOM OF STRUCTURE 4 12" STEEL COLUMN

HOSPITALITY INNOVATION

6" I-BEAM 7'-9" DOOR 6" I-BEAM FUTURE AC REGULATOR SIX HOTEL ROOMS OF THE 4'-1/16" CEILING HEIGHT 3 " CEILING HEIGHT 8'8' 7'-11 A6 PROJECT: PROJECT: PROJECT: SWITCH HEIGHT PROJECT: 16 1 FUTURE 7'-9" DOOR 7'-9" DOOR 8'-1116" 3'-1" HOSPITALITY HOSPITALITY INNOVATION INNOVATION HAND RAIL 3'-6' HOSPITALITY INNOVATION AC REGULATOR HOSPITALITY INNOVATION 4'-1/16" CEILING HEIGHT 3 LABLAB LAB LAB 7'-11 " AC REGULATOR BOTTOM CEILING SWITCH HEIGHT 16 OF BOTTOM OF CEILING ROOMA3 ELEVATION 7'-9" DOOR 4'-1/16" 3 " 3'-1" 7'-11 A6 CEILING HEIGHT CEILING CEILING HEIGHT HEIGHT CEILING SWITCH HEIGHT HEIGHT SIXSIX HOTEL ROOMS OF THE SIX SIX HOTEL HOTEL ROOMS ROOMS OF THETHE TOP OF FLOOR 16 HOTEL ROOMS OFOF THE A6 3'-1" FUTURE AC REGULATOR FUTURE FUTURE 7'-9" DOOR FUTURE 7'-9" DOOR 7'-9" DOOR REGULATOR 7'-9" TOP DOOR OFAC FLOOR 4'-1/16" 3" 4'-1/16" 7'-11 3 CEILING 11" CEILING CEILING HEIGHT HEIGHT 16 SWITCH HEIGHT 7'-11 " HEIGHT A6 CEILING HEIGHT SPA SECTION 8'-11 SWITCH HEIGHT 6" I-BEAM 8'-11 ELEVATION HAND RAIL 3'-6' 116 3'-1" 16 16" ROOM HAND RAIL 3'-6' 7'-5 7'-9" DOOR 0’ 2" 3’ 9’ 3'-1" 7'-9" DOOR 7'-9"REGULATOR DOOR AC 7'-9"OF DOOR TOP FLOOR 4'-1/16" 3 SCALE

TOP OF FLOOR

8'-611" 16

1" 2'-11 2

SIX HOTEL ROOMS OF THE LABHOTEL SIX ROOMS OF THE FUTURE

1 BOTTOM OF STRUCTURE 16'-11 16 "

PARAPET ROOF

6" I-BEAM

FIRE SPRINKLER FIRE FIRE SPRINKLER SPRINKLER FIRE SPRINKLER

BOTTOM OF STRUCTURE BOTTOM OF STRUCTURE BOTTOM OF CEILING

7'-9" DOOR

OF FLOOR OF BOTTOM FLOOR OF STRUCTURE 16'-11 TOPTOP OF TOP FLOOR

ROOM

BOTTOM OF STRUCTURE

11 11" 7'-5 7'-516 16"

ROOM SECTION SPA SECTION SPA SPASECTION SECTION A4

SPA SECTION 5’

0’ 5’ ROOM SECTION8’ A4 SCALE ROOM SECTION 11" 7'-5 A4 7'-522" A4 A4 6" I-BEAM ROOM SECTION 11" 6" I-BEAM 6"6" I-BEAM ROOM ROOMSECTION SECTION 7'-5 121 6"6"I-BEAM I-BEAM 6" I-BEAM I-BEAM ROOM SECTION 7'-5 1"21""" 11" 7'-5 6" I-BEAM 7'-5 A4 7'-5 2 7'-5 " 7'-5 2 A4 7'-522" 22 A4 FLOOR BELOW A4 FLOOR BELOW 0’ 5’ 8’ SCALE FLOOR BELOW FLOOR BELOW FLOORBELOW BELOW FLOOR FLOOR BELOW 0’ 5’ 8’ FLOORBELOW BELOW FLOOR FLOOR BELOW 0’0’ 5’ 5’5’ 8’8’ 0’ 8’ PARAPET ROOF A4 SCALE SCALESCALE SCALE 1

ROOM ROOM ROOM ROOM ROOM A4

FIRE FIRE SPRINKLER SPRINKLER FIRE SPRINKLER FIRE SPRINKLER

FLOOR BELOW TOP OF FLOOR TOP OF FLOOR

SCALE

FLOOR BELOW FLOOR BELOW TOP OF FLOOR FLOOR BELOW TOP OF FLOOR TOP OF FLOOR FLOOR BELOW TOP OF FLOOR FLOOR BELOW TOP TOPOF OFFLOOR FLOOR TOP OF FLOOR FLOOR TOP BELOW OF FLOOR 6" I-BEAM 6" I-BEAM

FIRE SPRINKLER

11"33" 7'-11 7'-5 7'-11 1616 16"

A3 SPA SECTION

A3 A3 A3

7'-5 HAND RAIL 3'-6' 22" 7'-5 "16 2 6" I-BEAM 11 1111" 6" I-BEAM 8'-11 6" I-BEAM 7'-5 8'-11 11"""" 8'-11 RAIL 3'-6' 8'-11 "16 2121"16 6"6"HAND I-BEAM 16 8'-11 I-BEAM HAND RAIL 3'-6' 8'-11 " 117'-5 7'-5 HAND RAIL HAND RAIL3'-6' 3'-6' 1"""16 16 16 " 8'-11 HAND 2 7'-5 HANDRAIL RAIL3'-6' 3'-6' 7'-5 6"FLOOR I-BEAMBELOW 8'-11 " HAND RAIL 3'-6' 116 FLOOR BELOW 16 220’ HAND RAIL 3'-6' TOP OF FLOOR FLOOR 7'-5 TOP BELOW OF FLOOR 2"

ROOM

6" I-BEAM

CEILING HEIGHT CEILING HEIGHT FIRE SPRINKLER

SIX HOTEL ROOMS OF THE PROJECT: PROJECT: 8' FUTURE HOSPITALITY INNOVATION HOSPITALITY INNOVATION 1 2'-11 LAB 2'-1121"" LAB PROJECT:

PARAPET ROOF PARAPET ROOF

7'-9" DOOR

FIRE SPRINKLER

CEILING HEIGHT CEILING HEIGHT TOP OF FLOOR

2'-11 BOTTOM BOTTOMOF OFCEILING CEILING 2'-112""

BOTTOM OF CEILING BOTTOM OF CEILING BOTTOM CEILING BOTTOM OF OF OFCEILING CEILING TOPBOTTOM OF FLOOR FLOOR BELOW TOPOF OF FLOOR BOTTOM CEILING TOPOF OF FLOOR BOTTOM CEILING TOP TOPOF OFFLOOR FLOOR

11" 2'-11 " 2'-1122

FIRE SPRINKLER

8'8' 3" 7'-1116

" LAB 18'" 2'-1122PROJECT: 8' PROJECT: 8'-1116 PARAPET PARAPETROOF ROOF OF STRUCTURE HAND RAILBOTTOM 3'-6' HOSPITALITY INNOVATION BOTTOM OF STRUCTURE 11" HOSPITALITY BOTTOM OF CEILING HOSPITALITY INNOVATION INNOVATION 2'-11 121 BOTTOM OF CEILING 2'-11 " PARAPET 1 PROJECT: BOTTOM ROOF OF CEILING 8' " 2'-11 1 " 2'-11 A3 PARAPET ROOF LAB 2 2'-11 22 2'-11 SIX HOTEL ROOMS OF THE BOTTOM OF OF CEILING BOTTOM STRUCTURE 22"" LAB BOTTOM CEILING BOTTOM OF STRUCTURE 6"OF I-BEAM INNOVATION BOTTOM OF STRUCTURE A3LAB A3 BOTTOM OF STRUCTURE 11 HOSPITALITY TOP OF BOTTOM FLOOR CEILING 6"OF I-BEAM BOTTOM OF STRUCTURE BOTTOM OF STRUCTURE

8'-1116" TOP OF FLOOR FLOOR BELOW TOP OF HAND 3'-6' TOPRAIL OFBOTTOM FLOOR OFFLOOR CEILING

6" I-BEAM 6" I-BEAM

HAND RAIL 3'-6' 6" I-BEAM PARAPET ROOF PARAPET ROOF PARAPET ROOF

8'-11 11"" 16 HAND RAIL 3'-6' OF7'-5 BOTTOM 16 8'-11 8'8'CEILING HAND RAIL 3'-6' OF 8'-11 BOTTOM CEILING 2"16 16" HAND HANDRAIL RAIL3'-6' 3'-6' 1

6" I-BEAM

CEILING HEIGHT

SIX HOTEL ROOMS OF THE SIX HOTEL ROOMS OF THE FUTURE PROJECT:

HOSPITALITY INNOVATION LAB

BOTTOM OF STRUCTURE

FIRE SPRINKLER

PARAPET ROOF PARAPET ROOF

BOTTOM OF STRUCTURE 2'-111221" BOTTOM OF STRUCTURE 2'-11 BOTTOM OF STRUCTURE BOTTOM OF CEILING 2'-1122"" PARAPET ROOF BOTTOM OF STRUCTURE

TOP OF BOTTOM OFFLOOR STRUCTURE BOTTOM STRUCTURE 6"OF I-BEAM BOTTOM OF CEILING I-BEAM 6"6" I-BEAM

1 2'-11 PROJECT: 2"

1" 2'-112

6" I-BEAM

8' 1" PARAPET ROOF 2'-112 PARAPET ROOF 11 PARAPET PARAPETROOF ROOF 2'-11 2'-11 BOTTOM OF STRUCTURE 2"" 11" 2'-11

PARAPET ROOF PARAPET ROOF PARAPET ROOF 8' 2'-111" PARAPET ROOF 2 11" PARAPET PARAPETROOF ROOF 2'-11 ABOVE ROOF 2'-1111" 2'-112 "

6" I-BEAM 6" I-BEAM 6" I-BEAM 6"6"I-BEAM I-BEAM

ABOVE ROOF

6" I-BEAM

PARAPET ROOF

1 1 2'-112'-11 2" 2"

1" 2'-112

3" 3" 3"

BOTTOM OF CEILING 7'-9" DOOR/ DROP CEILING

PARAPET ROOF PARAPET ROOF

BOTTOM OF STRUCTURE BOTTOM OF STRUCTURE 2'-0"X2'0" DROP CEILING

6" I-BEAM BOTTOM OF CEILING 6" I-BEAM

OUTLETS HAND RAIL1'-0" 3'-6' 7'-9" DOOR/ DROP CEILING BOTTOM BOTTOM CEILING OF CEILING BOTTOM OF OF CEILING SWITCH HEIGHT 3'-1" TOP OF FLOOR

-WALLS: 5/8” GYP. BRD

-DOORS 7’-9” 7’-9” STUDS 3-DOORS -DOORS 7’-9” -FLOOR: 7'-11 " 3CARPET 5/8” METAL 16 ROOM ELEVATION

1" 8' 8' 8'-1116 8' A7 7'-9" DOOR/ DROP CEILING 4 " STEEL COLUMN -FLOOR: -FLOOR: CARPET CARPET -WALLS: 5/8” GYP. BRD

-FLOOR: CARPET

1 2

4 12" STEEL COLUMN TOP OF FLOOR

3 5/8” METAL STUDS 1 8' 8' 8'

EXISTING HOTEL " 5/8” 8'-1116 -WALLS: -WALLS: 5/8” GYP. GYP. BRD BRD -WALLS: 5/8” GYP. BRD ROOM ELEVATION ELEVATION 3SUITES 5/8” 3METAL 5/8” METAL METAL STUDS STUDS 3 5/8” STUDS A7

BOTTOM OF CEILING 6" I-BEAM BOTTOM OF CEILING

7'-9" DOOR/ DROP CEILING

BOTTOM OF CEILING

7'-9" DOOR/ DROP CEILING

8' 8'

BOTTOM OF CEILING HAND RAIL 3'-6' SWITCH HEIGHT 3'-1"

OF CEILING1 HAND RAIL1BOTTOM 3'-6' 7'-5 " 2'-0"X2'0" DROP CEILING 2 8'-1116" 2'-0"X2'0" DROP CEILING SWITCH HEIGHT 3'-1" 4 " STEEL COLUMN 1 2

" 7'-9" DOOR/ DROP 7'-11 CEILING 163 " 7'-11 16

BOTTOM OF CEILING FLOOR BELOW

1 " HOTEL EXISTING 8'-1116 3’ SUITES ELEVATION

0’

OUTLETS TOP OF FLOOR HAND RAIL1'-0" 3'-6' DOOR/ 7'-9"DROP DOOR/ DROP DROP CEILING CEILING 7'-9"7'-9" DOOR/ CEILING 7'-9" DOOR/ DROP2'-0"X2'0" CEILING TOP OF FLOOR DROP CEILING SCALE BOTTOM BOTTOM CEILING OF CEILING BOTTOM OF OF CEILING SWITCH HEIGHT 3'-1"

OUTLETS 1'-0"

HAND RAIL 3'-6' SWITCH HEIGHT 3'-1"

TOP OF FLOOR

HAND RAIL 3'-6' SWITCH HEIGHT 3'-1"

OUTLETS 1'-0" HAND HAND RAIL 3'-6' 3'-6' HAND RAIL 3'-6'RAIL SWITCH SWITCH HEIGHT HEIGHT SWITCH HEIGHT 3'-1"3'-1" 3'-1" OUTLETS 1'-0" TOP OF FLOOR TOP OF FLOOR

OUTLETS OUTLETS OUTLETS 1'-0"1'-0" 1'-0" OF FLOOR OF FLOOR TOPTOP OF TOP FLOOR

-FLOOR: CARPET

2'-11 -BASEBOARDS -BASEBOARDS 3” 3” 3” 21" " -BASEBOARDS 2'-11 -DOORS 7’-9” 2 8'

BOTTOM OF CEILING

9’

ROOM ELEVATION

1 TOP OF FLOOR8'-11 " 16

6" I-BEAM 6" I-BEAM

1" EXISTING 7'-52 DOOR/ 7'-9"DROP DOOR/ DROP DROP CEILING CEILING A7 7'-9"7'-9" DOOR/ CEILING 7'-5 1" ROOM ELEVATION

1" 8'-1116 OUTLETS 1'-0"

0’ SCALE FLOOR BELOW 4 12"1STEEL COLUMN 4 2" STEEL COLUMN

FLOOR BELOW

HAND RAIL 3'-6'

TOP OF FLOOR 1 1 1 8'-11 SWITCH 3'-1" "HEIGHT 8'-11 CEILING 8'-11 A7 2'-0"X2'0" DROP CEILING 16"DROP 16"16 2'-0"X2'0" HAND RAIL 3'-6' SWITCH HEIGHT 3'-1"

OUTLETS 1'-0" HAND HAND RAIL 3'-6' 3'-6' HAND RAIL 3'-6'RAIL 0’ SWITCH SWITCH HEIGHT HEIGHT OUTLETS 1'-0" SWITCH HEIGHT 3'-1"3'-1" 3'-1" TOP OF FLOOR SCALE TOP OF FLOOR

3’

HOTEL 9’ A7 SUITES SECTION A7 1 EXISTING HOTEL " 8'-11 16 ELEVATION ROOMSUITES ELEVATION

A.8

ROOM ELEVATION ELEVATION ROOM ELEVATION 1ROOM EXISTING " HOTEL 8'-1116 A7 A7 A7 SUITES ELEVATION 0’ 5’ 10’

A.8

SCALE 1 HOTEL 1HOTEL 13’8'-11 EXISTING EXISTING 0’ EXISTING 9’ " 16 " HOTEL 8'-11 8'-11 16"16 ELEVATION SUITES SUITES ELEVATION SCALE SUITES ELEVATION 3’

A7 OUTLETS OUTLETS OUTLETS 1'-0"1'-0" 1'-0" OF FLOOR OF FLOOR TOPTOP OF TOP FLOOR

A7A7 A7

A.7 A.8 9’

A.8

0’ 0’ 0’ 3’ 3’ SCALE SCALE SCALE

3’

A.8 A.8 A.8

9’ 9’

9’

NANOTECHNOLOGY

is the study of controlling matter on an atomic and molecular scale.

Generally nanotechnology deals with structures of the size 100 nanometers or smaller in at least one dimension, and inNanotechnology is the study of controlling matter on an atomic and molecular scale. volves developing materials or devices within that size. Nanotechnology is very diverse, ranging from extensions of conGenerally nanotechnology deals with structures of the size 100 nanometers or smaller in at leastdevice one dimension, and to completely new approaches ventional physics involves developing materials or devices within that size. Nanotechnology is very diverse, ranging from extensions of based upon molecular self-assembly, from developing new conventional device physics to completely new approaches based upon molecular self-assembly, from developing new materials with dimensions on the nanoscale to investigating materials with dimensions on the nanoscale to investigating whether we can directly control matter on the atomic scale. whether we can directly control matter on the atomic scale.

NANOTECHNOLOGY

3 DEFINITIONS

Proposed Room Concepts 15

1 Technology becomes “nano” when it produces new kind of artifacts due to a nanometer-range at least in onewhen it produces new kind of ar1 Technologyresolution becomes “nano” of three dimensions. In this definition, ‘nano’ firstly started in the time of WWII with tifacts thin optical coatings, and finally - in the due to a nanometer-range resolution at least in one of middle of 1950s with introduction of ‘double-diffused’ transistor. three dimensions. In this definition, ‘nano’ firstly started in the

NANOTECHNOLOGY

N A N O T Etime CHN L O Gwith Y ofOWWII thin optical coatings, and finally - in the middle

2 Technology becomes “nano” when it produces new kind of artifacts due to a nanometer-range resolution in all three of 1950s with introduction of ‘double-diffused’ transistor. dimensions. In this definition, ‘nano’ was born at the border 1980s-1990s, when the design rule in semiconductor industry Nanotechnology is the study of 100 nm. Nanotechnology is the study of It had matured at early 2000s was firmly established below 1µm ‘waterline’. while submerging bellow controlling matter on an atomic and 2 Technology becomes “nano” when it produces new kind of arcontrolling matter on an atomic and molecular scale tifacts due to nanometer-range resolution in all three dimenscale 3 Technology becomesmolecular “nano” producing intelligent products without direct external intervention (by aself-organization). In this definition, this definition, we now almost exactly in the middle of the road to Nanotechnologysions. from its In conception at 1950s. ‘nano’ was born at the border 1980sN A N O FA C TS 1 IN C H = 25.4 M IL L ION NANOMET ERS I SH EET O F PA PER IS ROUGHLY 100,000 NANOMET ERS T HICK YO U R H A IR G R OWS 1 NANOMET ER PER S ECOND

1990s, when the design rule in semiconductor industry was firmly established below 1μm ‘waterline’. It had matured at early 2000s while submerging bellow 100 nm.

3 Technology becomes “nano” producing intelligent products without direct external intervention (by self-organization). In this definition, we now almost exactly in the middle of the road to Nanotechnology from its conception at 1950s. NANO FACTS 1 INCH = 25.4 MILLION NANOMETERS I SHEET OF PAPER IS ROUGHLY 100,000 NANOMETERS THICK YOUR HAIR GROWS 1 NANOMETER PER SECOND

15 0

HOTEL SUITE 15

SYSTEM INACTIVE SYSTEM INACTIVE

SYSTEM INITIATION SYSTEM INITIATION

SYSTEM +1

SYSTEM INACTIVE SYSTEM INACTIVE

SYSTEM INITIATION SYSTEM INITIATION

SYSTEM +1

The room 3:00 pm

SYSTEM +1

SYSTEM +2

The room 10:00 pm

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Nano Aluminum Panels: Nano @.21mm Aluminum 2.55lbs Panels: @.21mm Nano Aluminum 2.55lbs Nano @.21mm Aluminum 2.55lbs @.21mm Nano Aluminum 2.55lbs Panels: Nano @.21mm Aluminum 2.55lbs Panels: @.21mm 2.55lbs Nano Nano Aluminum Aluminum Panels: Nano Nano @.21mm Aluminum @.21mm Aluminum 2.55lbs Panels: 2.55lbs Panels: @.21mm Nano @.21mm Nano Aluminum Aluminum 2.55lbs 2.55lbs Panels: Nano Panels: Nano @.21mm Aluminum @.21mm Aluminum 2.55lbs Panels: 2.55lbs Panels: @.21mm Nano @.21mm Nano Aluminum 2.55lbs Aluminum 2.55lbs Panels: Nano Panels: @.21mm Nano Aluminum @.21mm Aluminum 2.55lbs Panels: 2.55lbs Panels: @.21mm @.21mm 2.55lbs 2.55lbs Nano Aluminum Panels: Nano @.21mm Aluminum 2.55lbs Panels: @.21mm 2.55lbsPanels: Nano Nano Aluminum Aluminum Nano Nano @.21mm @.21mm Aluminum Aluminum 2.55lbs 2.55lbs Panels: Panels: @.21mm @.21mm 2.55lbs 2.55lbs Nano Aluminum Nano @.21mm Aluminum 2.55lbs Panels: 2.55lbs Nano Aluminum Nano Aluminum Panels: NanoPanels: @.21mm Aluminum Panels: Nano @.21mm 2.55lbs Aluminum Panels: @.21mm 2.55lbs Panels: @.21mm 2.55lbs 2.55lbs SC Nano Glass: @.125mm SC Nano thickness Glass: @.125mm SC Nano@.21mm Glass: SC Nano @.125mm SC Glass: Nano thickness @.125mm Glass: SC Nano @.125mm thickness Glass: thickness E I GW HETI G HW IG TPanels: Wthickness E @.125mm I G H T Wthickness T E I G H T W E I GWHETI G H T W EWW IG EEIHG THHTPanels: Silicone Aerogel: @ Silicone 1” thick Aerogel: .015 @ lbs 1” thick .015 lbs Silicone Silicone Aerogel: Aerogel: @ @ Silicone 1” Silicone 1” thick thick Aerogel: Aerogel: .015 .015 @ @ lbs 1” lbs 1” thick thick .015 .015 lbs lbs 1.7 lbs 1.7 lbs 1.7 lbs 1.7 lbs 1.7 lbs 1.7 L B S L B Slbs L B S LBS LBS LBS L BLSLB/BSS/FS/ SF F Aluma Floor @3/16” 3/16” Aluma Floor @3/16” 3/16” 2.65lbsAluma Aluma Floor Aluma Floor 2.65lbs Aluma Floor 2.65lbs @@Aluma 3/16” Aluma @@3/16” 2.65lbs 2.65lbs Aluma Floor Floor @@3/16” Aluma Aluma Floor Floor @@ 2.65lbs 3/16” 2.65lbs Aluma Floor 2.65lbs Floor 2.65lbs @2.65lbs 3/16” @ 3/16” Aluma Aluma Floor Floor @ 2.65lbs 3/16” @ 3/16” 2.65lbs Aluma Aluma Floor 2.65lbs @ Floor 2.65lbs 3/16” 3/16” Aluma Floor Floor @ Floor 2.65lbs 3/16” 3/16” 2.65lbs Aluma 2.65lbs 2.65lbs Aluma Floor @3/16” 3/16” Aluma Floor @ 3/16” 2.65lbs Aluma 2.65lbs Aluma Aluma Floor Floor @@3/16” Aluma Aluma Floor Floor @@3/16” 2.65lbs 2.65lbs 3/16” 2.65lbs 2.65lbs Aluma @ 3/16” Aluma @@ 3/16” 2.65lbs Floor Aluma @Floor 3/16” Floor Aluma @ 3/16” Floor Aluma @Floor 2.65lbs 3/16” Floor 3/16” 2.65lbs 2.65lbs 2.65lbs 2.65lbs Profile Scanner: Profile Profile Scanner: Profile Profile Scanner: Scanner: Profile Scanner: Scanner: 23lbs lbs 23lbs lbs 2323 lbs 2323 lbs MF ACP Panel: MF ACP Panel: MF MF ACP ACP MF ACP ACP Panel: Panel: EPanel: NPanel: EEEN RNEGERYRGGYY MF 12.8 kW·h/kg 12.8 kW·h/kg kW·h/kg K cKaKcl ca al l Silicone Aerogel:Silicone Silicone Aerogel: Silicone Silicone Aerogel: Aerogel: Silicone Aerogel: Aerogel: kW·h/kg 5 5kW·h/kg kW·h/kg

Profile Scanner: Profile Profile Scanner: Profile Profile Scanner: Scanner: Profile Scanner: Scanner: PVDF ACP PVDF ACP PVDF PVDF ACPACP Panel: Panel:PVDF PVDF ACPACP Panel: Panel: ACP ACP PVDFPVDF PVDF ACP Panel: ACPPanel: Panel: PVDFPVDF PVDF ACP Panel: ACPPanel: Panel: 100 240 vac, -60 60 100 240 2.0 amps vac, 60Hz, Hz, 2.0amps amps 12.8 kW·h/kg 100 100 - 240 - -240 vac, vac, 5050 -50 60 -100 Hz, 100 Hz, -Hz, 2.0 240 - -240 2.0 amps vac, amps vac, 5050 -50 60 - -60 Hz, 2.02.0 amps 12.8 kW·h/kg kW·h/kg 12.8 12.8 kW·h/kg 12.8 kW·h/kg kW·h/kg 12.8 12.8 kW·h/kg 12.8 kW·h/kg kW·h/kg 12.8 12.8 12.8 kW·h/kg 12.8kW·h/kg kW·h/kg12.8 kW·h/kg 12.8kW·h/kg kW·h/kg

Nano Glass: Nano Glass: SC NanoSC Glass: SC Nano SC Glass: NanoSC Glass: SC Nano Glass: E N E R G Y E N E REG NYE R GEYN E R G Y E N E REG NYE R G Y 2.262.26 kW·h/kg K2.26 c a l2.26 Kcal Kcal 2.26 kW·h/kg kW·h/kg K2.26 c a l kW·h/kg KkW·h/kg c a l kW·h/kg Kcal

kW·h/kg 5 5kW·h/kg kW·h/kg

Profile Scanner: per Aluminum 1 lbs.Panels: Panels: per 1Profile lbs. Profile Scanner: Scanner: Panels: Panels: Aluminum per per Aluminum 11 lbs. lbs. Panels: per per 11 lbs. lbs. FOO IN FOO IPanels: NTT C A RCCBAAO RRBNBOOFNN OFO TOPOTRTPIPN RRITC N A TTRCCBAAO RRAluminum BNBAluminum OOAluminum FNN OFO TOPOTRTPIPN RR ITN 5 lbs. 5 lbs. 5 lbs. 5 lbs. L BLSLBB CSSOCCO2O 2 2 L BLSLBB CSSOCCO2O 2 2

Profile Scanner: Profile Profile Scanner: Scanner: unknown unknown unknown

Aluminum Aluminum 1 lbs. Aluminum Aluminum Panels: Panels: per Aluminum 1Aluminum per lbs.1 lbs. Panels: Panels: per 1per lbs. Aluminum Panels: per Aluminum per Aluminum Aluminum Panels: Panels: per Aluminum 1 lbs. Aluminum per11lbs. Panels: lbs. Panels: Panels: per 1 lbs. per11lbs. lbs. 5 lbs.5 lbs. lbs. 5 lbs.5 lbs. lbs. unknown unknown unknown 5 lbs. 55lbs. lbs. 5 lbs. 55lbs. lbs.

TFCROAIO TRINT CAR BON FCOAORTBCPO A RN R I NBFTOOCNO AT RFP BOR OOINN TP NRTTBCPO A RN R I NBFTOONO TFPOROI N TP Nano Glass: perper SC 1lbs. Nano Glass: per 1lbs. SC NanoSC Glass: SC Nano per 1lbs. SC Glass: Nano Glass: SC 1lbs. Nano per 1lbs. Glass: per 1lbs. S1 C O OS C O C O L1Blbs. LB S C OL B S C O L B S C LB 1 lbs. 1 lbs. 1 lbs. L1B Slbs. lbs.

Aluminum

INTEL LI- GE L Intelli-Ge l i s m a d e f rom a sof t b u t e xtre m e l y strong a n d e l a st ic so lid g el fo r med in t o a ser ies o f ver t iN A N O - A LU MIN U M cal su p p ort m e m b e rs tha t b e gi n to c om p re ss u nd e r l i gh t l o ads, bu t w h en t h e pressu re o n an y lo calN a no- a l um i num i s b e i ng us e d i n i nc re a s i ng q ua nt i t i e s a s e ne r ge t i c material. iz ed a re a b e c om e s u nc om f orta b l e , the su p p ort m e m b e rs “ relax ” allo w in g t h at lo calized par t o f t h e body to si nk i nto th e m a ttre ss. In thi s wa y, p re ssure p oi nt s u n der t h e h ip an d sh o u lder areas are reduced b y a re m a rka b l e 5 0 - 8 0 % .

Al um i num

INTELLI-GEL

IN TE LLI- G E L Int e l l i - G e l i s m a d e f rom a s of t b ut e xt re m e l y s t rong a nd e l a s t i c s ol i d gel formed into a series of vertic a l s up p or t m e m b e r s t ha t b e gi n t o c om p re s s und e r l i ght l oa d s , b ut when the pressure on any locali z e d a re a b e c om e s unc om f or t a b l e , t he s up p or t m e m b e r s “ re l a x” a l l owing that localized part of the FULL B O bDY NNE od y SCA t o s i nk i nt oR t he m a t t re s s . In t hi s w a y, p re s s ure p oi nt s und e r the hip and shoulder areas are re d e dabnn y aere 8 0 %. A Full Bod yucSc r maatr ka thbel e e5 0n-tra nc e of th e room wi l l a na yl z e t h e bo dy an d t h en sen d

t h e in fo r mat io n to the room s c e ntra l m a i n f ra m e . Thi s i n f orm a ti on i s p roc e s sed an d t h e ro o m is co n fo r med t o fit t h e person s c u stom c om f ort si z e .

I NTELLI -GEL

FU LL B O D Y S C A N N E R A Ful l B od y S c a nne r a t t he e nt r a nc e of t he room w i l l a na y l z e t he b od y and then send the information t o t he room s c e nt r a l m a i nf r a m e . Thi s i nf or m a t i on i s p roc e s s e d a nd t he room is conformed to fit the p e r s ons c us t om c om f or t s i z e .

Fu l l B o d y S c a n n e r

NANO FA BRIC The mate ri a l s sc i e n ti sts a t Hong K ong P ol yte c h ni c Uni ve rsit y co at ed co t t o n w it h n an o par t icles o f O FA B R IC titaniu m N dAi Noxi d e . Wh e n sub j e c te d to ul tra vi ol e t l i gh t, the t it an iu m dio x ide pro du ces an o x idizin g The m a t e r i a l s s c i e nt i s t s a t H ong Kong P ol y t e c hni c U ni v e r s i t y c oa t e d cotton with nanoparticles of agent th at itt a ni c um a n dbi oxi redaek. Wdhe own rtt e da nd c tsub stadioxide n ces. produces Acco rdin t o research er Walid A. n s ubdj ei c t o ulothe t r a v i olre t orga l i ght , ntihe i t a ni um an goxidizing ge nt re a kth d ow c s ub s t a ncde sb . y A cthe cording toic researcher A. po sed t o lig h t . Daoud , dai rt p at ha rtit ccaalns bon e fnadbi rrit ca nd c aot nhebreordga e ni c om p ose fabr it self wWalid h en ex

2 50

LE MI

Ful l Body Scanner

Nano Fabrics

+ 00

IL E

50 MI

D a oud , d i r t p a r t i c a l s on t he f a b r i c c a n b e d e c om p os e d b y t he f a b r i c itself when exposed to light.

INTELLI-GEL

HOUSTON

Nano Fabri cs

Alum inum

HOUSTON F ull Bod y Scanner

N A N O P R O TE X

Nano-protex

N a noNANO P RO TEpXrot e x i s a w a t e r- b a s e d N A N O i m p re gna t i on w i t h v e r y hi gh p e netration depth for textile. The p rod uc t i s re p e l l e nt t o w a t e r a nd t he a d he re nc e of f ore i gn m a t t e r t o the surface is decreased. The Nano-p rote x i s a wa te r- b a se d NA NO i m p re gna ti on wi th ve r y h ig h pen et r at io n dept h fo r t ex t ile. T h e N a no- p a r t i c l e s a d he re d i re c t l y t o t he s ub s t r a t e m ol e c ul e s , d e f l e c t i ng any foreign matter. product i s re p e l l e n t to wa te r a nd the a d h e re n c e of f ore i gn mat t er t o t h e su r face is decreased. T h e Nano-p a rti c l e s a d h e re d i re c tl y to th e sub stra te m ol e c u l e s, deflect in g an y fo reig n mat t er.

Nano F abr ics

Nano-protex

Nano-pr otex

NANO P RO TE CT Nanop rote c t Gl a ss i s a sp e c i a l n a note c h nol ogy p rod u c t, m an u fact u red by N an o t ec, w it h a lo n g t er m self cl e a ni ng e ff e c t f or gl a ss a n d c e ra m i c su rf a c e s. The NAN O-par t icles adh ere direct ly t o t h e mat erial mo l e c ul e a nd a l l ow th e surf a c e to d e f l e c t a n y d i rt a nd wat er. O X I- TITA N A N TIB A C TE R IA L C O ATIN G O xi Ti t a n us e s t he e ne r gy of l i ght on a c a t a l y s t t o c re a t e e l e c t r i c a l activity at the atomic level. The p os i t i v e c ha r ge of O xi Ti t a n a t t r a c t s , t r a p s , a nd t he n oxi d i z e s t he ne gatively charged virus, bacteria, m ol d , f ungi , a nd v ol a t i l e or ga ni c c om p ound s (V O C s ) on t he t re a t e d s urface.

Nanoprotect

Nanopr otect

Anti bacteri al coati ng

OX I-TI TA TR N AANNTIBA S TU B E SCTE H O WRIA E R L CO ATING s csl e a r sehow e r srgy t a l l fof e a t ure s at rot atia ng c da oor i t h noto hi nge c rews handles, operates OxiTit a n Thi u se th e ne l i gh on tawl yst c res ,ano te s e l ector r ical act ivit y at autot h e at o mic level. T h e m a t i c a l l y t hrough m ot i on s e ns or s . O n t he i ns i d e i s a s l e e k c hrom e c olumn and a thermostatic stain positive cl eha rge of O xi Ti ta n a ttra c ts, tra p s, a n d the n oxi d i z es t h e n eg at ively ch ar g ed vir u s, bact er ia, s s s t e e l t ow e r he l p t o s a v e b ot h w a t e r a nd e ne r gy. mold, f u ngi , a n d vol a ti l e orga n i c c om p oun d s (V O Cs) on the t reat ed su r face. Ant i b a c t e r i a l c o a t i n g

Antibacter ial coating

Transtube Show er

Nanotechnology Tr anstube Shower

3 4

1 1

3 2

PRODUCTS

MATERIALS

BODY SCANNER

SELF CLEANING TOILET/URINAL

TRANSTUBE SHOWER

NANO-FABRIC

BODY SCANNER

MATERIALS 5

NANO-ALUMINUM

SELF CLEANING TOILET/URINAL

INTELLI-GEL

TRANSTUBE SHOWER

NANO PROTEX

NANO-FABRIC

NANO-PROTECT GLASS

OXI-TITAN COATING

3 2

NANO-ALUMINUM

INTELLI-GEL

NANO PROTEX

NANO-PROTECT GLASS

OXI-TITAN COATING

20 25

the shower

PRODUCTS

3 2

MATERIALS

MATERIALS 1

NANO-ALUMINUM

INTELLI-GEL

NANO PROTEX

NANO-ALUMINUM

INTELLI-GEL

NANO PROTEX

NANO-PROTECT GLASS

OXI-TITAN COATING

the Scanner

Proposed Room Concepts

BIOMIMICRY BIOMIMICRY

Biomimicry is the science and art of Biomimicry is the science and art of emulating Nature's best biological ideas emulating Nature's best biological ideas to solve human problems to solve human problems

BIOMIMICRY

Biomimicry is the science of taking inspiration from nature, its models, systems, processes and elements to solve design problems sustainably.

The name biomimetics was coined by Otto Schmitt in the 1950s. The term bionics was coined by Jack E. Steele tems, processes and elements to solve design in 1958 while working at the Aeronautics Division House m bionics was coined byat Jack E. Wright-Patterson Steele in 1958 Air orce Base in Dayton, Ohio. However, terms like Force Base in Dayton, Ohio. fforts to avoid confusion between the medical However, terms like biomimel Cyborg, which inspired the series The Six rning to fiction full time.icry or biomimetics are more preferred in the technology world in efforts to avoid confusion between the medical term bionics. Coincidentally, Martin Caidin used the word for his 1972 novel Cyborg, which inspired the series The Six Million Dollar Man. Caidin was along-time aviation industry writer before turning to fiction full time.

the Bio room

20 HOTEL SUITE

2020 2020

BIOMIM BI C ORY M I M I C RYB I O M I M BI C ORY M I M I C RY

BIOMIM BIC ORY M I M I C RYB I O M I M BIC ORY M I M I C RY

B E D RBO ED ORMO OBM E D RBO ED ORMO O M

E N T RY E N T RY E N T RY E N T RY K I T CKHIETN C HAERN KEIAA TC RKH EIAETN C HAERNE AA R E A B AT HBRAT OH ORMOBOAT MHBRAT OH ORMO O M C L O SCELTO S E T C L O SCELTO S E T

PAT I O PAT I O PAT I O PAT I O

M AT E R I A MLAT S E&RPI A R LOSD& UM CPTAT RSOEDRUI A M CLTAT SS E&RPI A R LOSD& U CPTRSO D U C T S B a m b o o P aBnaeml sb o o P a n e l s

M AT E R I A MLAT S ERIALS B a m b o o P aBnaeml sb o o P a n e l s

B a m b o o P aBnaeml sb o o P a n e l s

N a t u r a l S aN nd a tSutroanl eS awnidt hS t o n e N awt iutrha l S a N nd a tSutroanl eS awnidt hS t o n e w i t h I m b e d d e d IFmi lbt e rd d e d F i l t e r I m b e d d e d IFmi lbt e rd d e d F i l t e r

P h y t o r e m ePdhi ay t o i orne m e d i a t i o n P h y t o r e m ePdhi ay t o i orne m e d i a t i o n Wall System Wall System Wall System Wall System

Nylon Spon Ngy el oA n cSt p i voant egde A c t iNv ya ltoend S p o n Ngy el oA n cSt p i voant egde A c t i v a t e d Carbon FilC t earr b o n F i l t e r Carbon FilC t earr b o n F i l t e r

B i o - L u m i n eB ci oe-nLtuLmi gi nhet icnegn t L i B g ihot-iLnugm i n eB ci oe-nLtuLmi gi nhet icnegn t L i g h t iBni g o - L u m i n eB ci oe-nLtuLmi gi nhet ci negn t L i B g ihot-iLnugm i n eB ci oe-nLtuLmi gi nhet ci negn t L i g h t i n g

M a g n e t i c aM l l ya gCnheatrigcea d lly Charg Meadg n e t i c aM l l ya gCnheatrigcea d lly Charged C o n v e c t i o nC oCnovoekcttoi o p n C o o k t oCpo n v e c t i o nC oCnovoekcttoi o pn C o o k t o p

M S D P a n e lM s SD Panels

D y n a s t y S pDay n a s t y S p a

M S D P a n e lM s SD Panels

D y n a s t y S pDay n a s t y S p a

B a m b o o P aBnaeml sb o o P a n e l s

M AT E R I A MLAT S ERIALS

C e i l i n g MCaeti el irni g a l sM a t e r i aCl se i l i n g MCaeti el irni g a l sM a t e r i a l s

B i o d e g r a dB ab i ol d e eNgur rasdearby l C e oNnut raBsi enoredyresCgor andt aBibnoledreN sgur rasdearby l C e oNnut rasi enreyr sC o n t a i n e r s

B a m b o o P a nBeal sm b o o P a n e l s MSD Panels MSD Panels

W a l l M a tW e rai lal l sM a t e r i a l s W a l l M a tW e rai lal l sM a t e r i a l s Bio-Lumine B ci oe-nLtuLmi gi nhet ci negn t L i B g ihot-i Lnugm i n e B ci oe-nLtuLmi gi nhet ci negn t L i gThi tf ignrge e n GTr ai fsgsr e e n G r a s s

B i o - L u m i n eB ci oe-nLtuLmi gi nhet ci negn t L i B g ihot-iLnugm i n eB ci oe-nLtuLmi gi nhet ci negn t L i g h t i n g

T i f g r e e n GTr ai fsgsr e e n G r a s s

Bio-Lumine B ci oe-nLtuLmi gi nhet ci negn t L i B g ihot-i Lnugm i n e B ci oe-nLtuLmi gi nhet ci negn t L i g h t i n g

B a m b o o P a nBeal sm b o o P a n e l s B a m b o o P a nBeal sm b o o P a n e l s A i r C u r t a i n SAyisr tCe u mr t a i n S y s t e m A i r C u r t a i n SAyisr tCe u mr t a i n S y s t e m N a t u r a l S a n dNsattounrea lwSiat n h d s t o n e w iN t ha t u r a l S a n dNsattounrea lwSiat n hdstone with I m b e d d e d F iI lm t ebre d d e d F i l t e r I m b e d d e d F iI lm t ebre d d e d F i l t e r N y l o n S p o n gNey lwoint hS p o n g e w i t h N y l o n S p o n gNey lwoint hS p o n g e w i t h A c t i v a t e d C aArcbtoi vna t e d C a r b o n A c t i v a t e d C aArcbtoi vna t e d C a r b o n P h y t o r e m e dPi ahtyi ot onr e m e d i a t i o n P h y t o r e m e dPi ahtyi ot onr e m e d i a t i o n W a l l S y s t e mW a l l S y s t e m W a l l S y s t e mW a l l S y s t e m

F l o o r i n g FM l oaot reirni g a l sM a t e r Fi al o l so r i n g FM l oaot reirni g a l sM a t e r i a l s B a m b o o P a nBeal sm b o o P a n e l s MSD Panels MSD Panels T i f g r e e n G r aTsisf g r e e n G r a s s

M a g n e t i c aM l l ya gL ne ev itti ac at el ldy BL e d v i tM a taegdn B e teidc aM l l ya gL ne ev itti ac at el ldy BL e d vitated Bed

B a m b o o P a nBeal sm b o o P a n e l s MSD Panels MSD Panels T i f g r e e n G r aTsisf g r e e n G r a s s

P r o d u c t sP/rPor d ou c ec st s /i n Pg r o c ePsrsoi ndgu c t sP/rPor d ou c ec st s /i n Pg rocessing M a g n e t i c a l l yMLaegvniet at itceadl l By eLde v i t a t eM d aBgende t i c a l l yMLaegvniet at itceadl l By eLde v i t a t e d B e d B i o l u m i n c e nBt i o F il lum mincent Film B i o l u m i n c e nBt i o F il lum mincent Film M a g n e t i c a l l yMCa h g anregt ei cda l l y C h a r g e dM a g n e t i c a l l yMCa h g anregt ei cda l l y C h a r g e d Convection Con o vk et oc p tion Cooktop Convection Con o vk et oc p tion Cooktop D y n a s t y S p aD y n a s t y S p a D y n a s t y S p aD y n a s t y S p a B i o d e g r a d a bBlieo d Neugr sr ae d r ya b l e N u r s e rByi o d e g r a d a bBlieo d Neugr sr ae d r ya b l e N u r s e r y Container Container Container Container

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yet structu ra l . B AMBOO

MB O O IN TE R IO R S KIN INTELLI-GB EAL I nt e r i or w a l l s ol ut i on m a d e f rom na t ur a l & re ne w a b l e b a m b oo. B a m b oo grows very fast and is flexible Intelli-Gelyei st sm a dt ur e afl .rom a sof t b ut e xtre m e l y stron g a nd e l a sti c so lid g el fo r med in t o a ser ies o f ver t it r uc cal support m e m b e rs th a t b e gi n to c om p re ss un d e r l i ght l oa d s, bu t w h en t h e pressu re o n an y lo calized area b e c om e s u nc om f orta b l e , the su p p ort m e m b e rs “ re l a x ” allo w in g t h at lo calized par t o f t h e body to siI N nk i nto th e m a ttre ss. In thi s wa y, p re ssure p oi nts u nder t h e h ip an d sh o u lder areas are TE LLI- G E L reduced by 5 0a- s8of0t%. I nt a e l l ire - Gm el a i srka m a dbel ferom b ut e xt re m e l y s t rong a nd e l a s t i c s ol i d ge l f ormed into a series of verti-

BAMBOO

INTELLI-GEL

c a l s up p or t m e m b e r s t ha t b e gi n t o c om p re s s und e r l i ght l oa d s , b ut w he n the pressure on any locali z e d a re a b e c om e s unc om f or t a b l e , t he s up p or t m e m b e r s “ re l a x” a l l ow i ng that localized part of the bod y t o s i nk i nt o t he m a t t re s s . In t hi s w a y, p re s s ure p oi nt s und e r t he hip and shoulder areas are re d uc e d b y a re m a r ka b l e 5 0 - 8 0 %. I N T EL L I - G EL

NATURAL S TONE Natural Ston e to e nh a nc e n a tu re a n d q ua l i ty.

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N ED TIC B E D MAGNETICM A G BE T he b e d s i m p l y f l oa t s i n t he a i r, a b ov e m a gne t s , c a n c a r r y up t o 9 0 0 ki l os and is held in place through The bed simp l y n rth f our v e r fyl oa t hi nts t e tihe s . e a i r, a b ove m a gn e ts, c a n c a rry u p to 900 k ilo s an d is h eld in place t h ro u g h four very t hi n te th e rs.

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D Y N A S TY S PA D y na s t y S p a s p rov i d e y ou w i t h t he a b i l i t y t o re l a x a nd unw i nd a f t e r a l ong day. Available in a variety o f s t y l e s , c ol or s , LE D l i ght op t i ons , w a t e r f a l l s , s t e re os a nd e v e n TV s , e ach of our spas are guaran tSPA e e d t o s ui t y our e nj oy m e nt .

DYNAS TY Dynasty S pa s p rovi d e you wi th th e a b i l i ty to re l a x a nd u nwi n d aft er a lo n g day. Available in a var iet y of styles, col ors, L E D l i gh t op ti on s, wa te rf a l l s, ste re os a nd e ven T Vs, each o f o u r spas are g u ar an teed to sui t your e nj oym e n t.

M A GN E T I C B E D

DYNASTY SPA

DYN ASTY SPA

A CT I V E P HY T OR EM E D I A T I O N W A L L

AC TIVE PHYTOREMED IATION WALL

DYNASTY SPA

ACTIVE PH YTO RE ME DIATIO N WA L L SYSTE M The Cente r f or A rc h i te c tu re Sc i e nc e a n d E c ol ogy ha s c re a te d a n ew pro t o t ype t h at w o u ld w o r k w it h a buildings e xi sti n g HVA C syste m to re d u c e e n e rgy l oa d s a n d i mpro ve in do o r air qu alit y. T h e act ive IL CWa O N FO R M G E Lm S HiE PhytormedAiDaVA ti Son l l Syste sE Ta m od ul a r wa l l syste m of p od s h o u sin g h ydro po n ic plan t s. Becau se A s he e t of m e d i c a l gr a d e s e l f - a d he re nt s i l i c one ge l f or t he m a na ge m e nt of scar tissue or recently the plantshe ’ roots a re e xp ose d i a or d mof soi l ,e nt th(S e i lpf i xÂ l a ®) nt ssilicone air clean inagsmooth capacit y in creases by a l e d w ound s . C om p os e d ofnste a c onf a b lb eu l ari y eerdof itnr a ns l uc gel and ure t ha ne out e r l a y e r t o i m p rov e w e a r a b i l i t y a nd p a t i e nt c om p l i a nc e . 200% to 3p0ol0y%.

A C T I V E P H Y T OR E M E D I A T I ON W A LL

A D V A S I L CON F OR M G EL S HE ET

N A N O TITA N IU M FILTE R N a no Ti t a ni um t e c hnol ogy us e s a Ti O 2 c a t a l y s t t o p rov i d e a p ow e r f ul deodorising effect. Nano T i t a ni um p a r t i c l e s a re i nc re d i b l y s m a l l (a b out 5 nm ). The Fi l t e r i s p a c ke d with these minute particles CONFORM Tor s . t o f i r m l y c a t c h GE a ndLreSHE s ol v e Eod

ADVAS IL A sheet of m e d i c a l gra d e se l f - a d h e re n t si l i c on e ge l f or the m an ag emen t o f scar t issu e o r recen t ly healed wo un d s. Com p ose d of a c onf orm a b l e l a ye r of tra nsl uc e nt (Silfix Â®) silico n e g el an d a smo o t h polyuretha n e ou te r l a ye r to i m p rove we a ra b i l i ty a n d p a ti e nt c omplian ce.

A D V A S I L C ON F OR M GE L S H E E T

N A N O - T I T A N I U M F I L T ER

ADVASIL C ONF ORM GEL SHEET

NANO TITA NIUM FILTE R Nano Titani um te c hn ol ogy use s a Ti O2 c a ta l yst to p rovi d e a po w er fu l deo do r isin g effect . N an o Titanium pa rti c l e s a re i n c re d i b l y sm a l l (a b ou t 5 n m ). Th e Fi l te r i s pack ed w it h t h ese min u t e par t icles

BIOMIMICRY N A N O- T I T A N I U M F I LT E R

Holcome

Main St 2

3 3

Basic Spacial Concept

4 3

PRODUCTS

MATERIALS

MAGNETIC BED

DYNASTY SPA

ACTIVE PHYTOREMEDIATION WALL

GREEN AIR PURIFYING GRASS

BAMBOO INTERIOR SKIN

INTELLI-GEL

NATURAL STONE

LOTUS EFFECT SELF CLEANING

Ground Floor

the bedroom

PRODUCTS

MATERIALS

MAGNETIC BED

DYNASTY SPA

ACTIVE PHYTOREMEDIATION WALL

GREEN AIR PURIFYING GRASS

BAMBOO INTERIOR SKIN

INTELLI-GEL

NATURAL STONE

LOTUS EFFECT SELF CLEANING

MATERIALS 1

BAMBOO INTERIOR SKIN

INTELLI-GEL

NATURAL STONE

LOTUS EFFECT SELF CLEANING

MATERIALS 1

BAMBOO INTERIOR SKIN

1 n

BIONANOCRY

biomimicry & Nanotechnology

bionanocry

1- Biomimicry Spaces 2-common green spaces 3-library 4-work out area 5- hotel rooms 6-fire stairs 7-restrooms 8-elevators

the spa

Biomimicry + Nanotechnology = Bionanocry

hotel HOTE

Biomimicry is the science of taking inspiration from nature, its, models, systems, processes and elements to solve desing sustainably. Nanotechnology is the study of the controling of matter on an attomic lecular scale. By defenition architecture becomes “nano” producing intelligent products without direct external intervention (by self-organization).

Biomimicry is the science of taking inspiration from nature, its, models, systems, processes and elements to solve design sustainably. Nanotechnology is the study of the controlling of matter on an atomic and molecular scale. By definition architecture becomes â&#x20AC;&#x153;nanoâ&#x20AC;? producing intelligent products without direct external intervention (by self-organization). Hotel BIONANOCRY is a self sufficient hotel using a water collection skin, and using green phyrodemetaion spaces to allow its guest to experience a nature feel in the Houston Medical Center. It is based on the idea of a community within because all the major opening are concentrated to the center of the hotel. There is also an open public access park for all the pedestrians to use. This is aimed to encourage walking and outdoor activities. Biomimic Parametric Spaces

Biomimic Parametric Spaces

Vert. Circulation Biomimic Parametric SpacesHort. Circulation

Nano Cells Biomimic Parametric Spaces Nano Cells

Vert. Circulation Biomimic Parametric Spaces

Nano Cells Hort. Circulation

Vert. Circulation Nano Cells Site Fannin ST

Biomimic Parametric Spaces

Holcome Main St

North

North Opening Size

Basic Spacial Concept Nano Cells Basic Spacial Concept

Vert. Circulation

SiteCirculation Edges Vert.

Site Edges Site Fannin ST Site Holcome Fannin ST Main St Holcome Hort. Circulation Main St

Hort. Circulation Vert. Circulation Hort. Circulation

Site Edges Hort. Circulation Site Edges

Site Fannin ST Holcome Main St Site Edges

West

Opening Progression In Basic Spacial Concept response to Sun Impact

Basic Spacial Concept Site Fannin ST Holcome Nano Cells

Biomimic Parametric Spaces

Vert. Circulation

Hort. Circulation

Basic Spacial Concept

Main St Biomimic Parametric Spaces Biomimic Parametric Spaces Site Site Edges Fannin ST Holcome Main St

Basic Spacial Concept

Vert. Circulation Vert. Circulation

Hort. Circulation Hort. Circulation

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Site Edges

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