Upload
others
View
1
Download
0
Embed Size (px)
Citation preview
TxDOT Project 0-1838
Product 1
User's Guide
INSTRUCTIONS FOR USING THE CD-ROM
ACCOMPANYING RESEARCH PAPER 0-1838:
TRANSPORTATION CONTROL MEASURE
EFFECTIVENESS IN OZONE NON-ATTAINMENT AREAS
PREPARED AUGUST 2001
Note. This CD-ROM uses the software program TransCAD. To use the CD-ROM, make
sure that TransCAD (version 4.0 or later) is installed on the machine, and that the
hardware "key" is installed properly. The key, which is approximately 2 in. x 2 in. x Yz in.
and is screwed into the printer port, MUST be present to use TransCAD.
Terms and definitions. Definitions for TransCAD terms (e.g., "dataview") can be found
in TransCAD's Help section, which is available electronically in the TransCAD menu bar
(at the top of the TransCAD window).
Preliminary Steps
Step 1. Make sure TransCAD installed.
Step 2. Insert CD-ROM into CD-ROM drive.
Step 3. Opening the files: Double-click on the hard drive icon (usually labeled "My
Computer"); a window will open. Double-click on the CD-ROM drive icon found in the
hard drive window; in the CD-ROM window which opens, the user can view all of the
files and select which ones s/he wishes to open.
I. Instructions For Using The Files For Supplementary Traffic
Inputs To The MOBILE Emissions Factors Models.
VMT Mix files. The main file is VMJ' _ Mix. wrk, found in the folder called VMT Mix.
1. Double-click on this workspace(* .wrk) file to open a DFW roadway link network
map, a dataview with all the data, and a dataview with all the data and map
information.
2. In order to find out the VMT mix on a specific link, click on the Info button in the
"Tools" window, then click on the link of interest on the map. Information for that
link will appear in another dataview.
3. The Figure below (Figure I-1) is an illustration of what the user can expect to see
when the above two steps have been completed.
*For more information, see readme-VMJ'.txt in the VMT Mix folder.
File Edit ~P Ddt:avtew Se-lection Mab'1X layout 'fools Procedt.res
VMT _PRESENTSTREETB
:M.>p scale: I Inch• 14 . 10269 Miles ( l :893,559) (-100.278750, 22:204724)
i:flsta,t j! ] ::iJ I§('$'~ i)"; ~ JlMP- ,. j C]vMrnx ! !!if)lnteQ' ... j Bg Mo<ros .. , !l~Trans ...
7441
0
non~ 22.17%
1 24%
2.13%
0.92%
0.46%
24.19%
0.69%
0.94%
2.11 %
70.21%
0 85%
0.5~%
0.46%
IH45 ONRAMP SB
Oollas
LAMAR
S IH45
-- ·' :$~@(! q 'µ -;;,31 AM
Figure 1-1. Display of the VMT Mix on an IH-45 SB ramp in Dallas, Texas.
Trip Time Duration files . FVMT wrk, found in the Trip and Soak Time Duration folder,
is the workspace file that consists of the DFW T APZ (Traffic Analysis Process Zone)
map and the trip time duration data.
1. Double-click on this file to open the DFW T APZ map and dataviews with all the
data and map information.
2. To find the trip time duration information for a certain TAPZ, click on the Info
button in the "Tools" window, then click on the T APZ of interest on the map.
Information for that zone will appear in another dataview.
3. The Figure below (Figure 1-2) is an illustration of what the user can expect to see
when the above two steps have been completed.
*For more information, see readme-Trip_Duration.txt (the sections labeled Notational
Notes and Trip Duration Variable Indices should be particularly helpful) .
File Edt Map Dataview Selection M!ltrix L~yout Tools Procedures Route Systems
D B 13 e ITap919
10 741
VMTL4 3 112.8608 --------t VMTL44 103.2327 -------VMTL45 227.1925
--------< Vlv1TL46 195 0521 -------VMTL47 269.5180 -------VMTL48 176.0744
--------< VMTL49 142.8774
-------fvmtl oOO 0.1459 -------lvmt2a00 0.2742
--------< fvmt3a00 0.2078
--------< fvmt4o00 0.1247
-------fvmt5o00 0.0786 -------fvmt6e00 0.1688
--------< fvmt1 a01 0.1341
--------< fvmt2a01 0.2646 -------fvmt3o01 0.2092
;M<,p scale: 1 Inch• I8.64-128Mi!P.S(l :I,181,302) EJ[8]'i=%.2~6521;32:119549j i;IIStart Ii: ~ -~ ~ J:i, L ¢]IMP - ... 1 '~Trip D .. 1 ~Inteqr ... j ~Micros ... !l§irrans._
Figure 1-2. Some DFW trip time duration model results
Local Road VMT (LRVMT) files . LRVMT wrk, also found in the Trip and Soak Time
Duration folder, is the workspace file that consists of the DFW TAPZ map and the local
road VMT data.
1. Double-click on this file to open the DFW T APZ map and dataviews with all the
data and map information.
2. To find the LRVMT information for a certain TAPZ, click on the Info button in
the "Tools" window, then click on the TAPZ of interest on the map. Information
for that zone will appear in another dataview.
3. The Figure below (Figure 1-3) is an illustration of what the user can expect to see
when the above two steps have been completed.
Variables: TAP! is the actual TAPZ number, and Total_LRVMT is the TAPZ's total
LRVMT, based on an assumed average local speed (20 mph), a assumed number of
intrazonal vehicle trips ( 100), and the model output of mean intrazonal travel time ( a
more detailed description of this information can be found in the readme-
Trip _Duration. txt file).
F,le Edt Map Dataview Selection Matrix Layout Tools Procedures Route Sy-;tem<i
D e; 8 e \Tap91 9
ID
Areo
TAPZ
TOT AL_LRVMTID
TAP1
Num_lntroz_ Tnps
SPEED
MEAN_TT
TOT AL_LRVMT
Figure I-3. Local road VMT results
195
6.39
244
195
244
100
20
7.5
249
!··········-··· . ···································,.·································-···· 5~0<f 4;) . CJ 12 23 PM
Soak Time Duration files . Soak-example. wrk, found in the Trip and Soak Time
Duration folder, is the workspace file that consists of the DFW TAPZ (Traffic Analysis
Process Zone) map and a sample of soak time duration data.
1. Double-click on this file to open the DFW T APZ map and data views with all the
data and map information.
2. To find the soak time duration information for a certain T APZ, click on the Info
button in the "Tools" window, then click on the T APZ of interest on the map.
Information for that zone will appear in another dataview.
3. The Figure below (Figure 1-4) is an illustration of what the user can expect to see
when the above two steps have been completed.
*For more information, see readme-Soak_Duration.txt, found in the Trip and Soak Time
Duration folder.
'·l' .. t,1".. '-.' ·,,·.·.',.",('.L•.: 'rn'.,'~~, : ' _IC]I XI :Edit f-rl.:,1p D~t6Vir.;V.; S:~!ect,,::n , ,, y L -::yout: 'fo:::1~: .. - u- '" .- .. ~..lk,~-~ ....:.u:::::.J~
r--.---.-:=::-.::--;-;::==:==:==:==:==:=..:.J=·;-:lli'tl:-i_::.r ;:ihi]:-111
::.::---:;--:--:- -~~~-10-+-~-65~9 ~ .j FR47F10 0.00
FR48F10 0 00
FR49F10 0.00
FRSOFl O 0.00
FR51 Fl O 0.00
FR52F10 00
FR53F10 0.00
FR54F10 000
FR55F10 0.01
FR56F10 0 02
FR57F10 0.04
FR58F10 0.06
FR59F10 0.08
FR60F10 0.09
FR61 Fl O 0.10
FR62F10 0.10
FR63F10 0.09
FR64F10 0 08
FR65F10 0.07
FR66F10 0.06
FR67F10 0.05
FR68F1 0 0. 1 4
:o;;i:;~;;;;;;ri:;;o;ds ··1: iso1··esa·················
1~14![,l,fi·li!tlr .d.QJ~
i ® E.ile ~dot ~iew [nsert I : FQrmat lools Q,,ta ~ indow
I tJelp ~-~.l
A 8 ' time bin minutes
47 90-120 48 120-150 49 150-180 50 180-210 51 210-240 52 240-270 53 270-300 54 300-330 55 3:0-360 56 360-390 57 39).420 58 420-450
19 ' 59 450-480 '2if; 60 480-510 21 61 510-540 p . 62 540-570 23 • 63 570-600 24 64 600-630 25 65 630-660 26 . 66 660-690
_??_i 67 690-120 II 28 • 68 720+ ..:J
1; ~:. •i.~ 1.1..Lm .d r · r
~Start ![ ; :-ii s ~ r~ I! Q rr~Dua .. j_C)_, _mas _ _ ~I ~TransCAD ll~Microsof._ ~lr~eqati .. , I r~-~0 :J:'9·:;; -·s:;2-p~-
Figure I-4. Soak time duration distribution for morning and home purpose.
II. Instructions for Using the Travel Demand Models in
TransCAD: Ordered-Response Probit Model
for Trip Generation
To install the trip generation add-in script:
1. Open TransCAD; 2. Go to TransCAD menu "Tools", click "Add-ins"; 3. In "Add-ins" window, click "Setup"; 4. In "Setup Add-ins" window, click "Add". Type "Ordered-response Model
Forecasting" in the Description box, type "ORP" as Name (case sensitive), and "e:\Trip Generation\UI_ORP\orp" in the UI Database box and click "OK".
To run the ordered-response model for trip production model:
1. Open a map (e:\Trip Generation\tsz90\tsz90.map) that contains zonal structure
information for the study area;
2. Go to menu "tools" and choose "add-ins". In the "add-ins" window (as shown in
Figure 11-1), choose "Ordered-response Model Forecasting", and click "OK".
The implementation procedure is now activated.
Add-ins £1 OK I
Cancel ·I Setup ...
Figure 11-1. Add-in window
3. After the add-in procedure is activated, an open-file window (as shown in Figure
11-2) will pop up. First, select a household demographic distribution table
(e: \Trip Generation\hbw\householdworkers .dbf) and click "open"; then, select a
model coefficient table (e:\Trip Generation\hbw\hbw_l.dbf) and click "open";
Choose a Distribution Table ; DD Look in: I a test
~ HBW _AGGR.DBF ~ HBW _HH.DBF ~ hhworkers.dbf
File name: JHBW_ldbf
Files of type: ] dB ase file
r Open as read-only:
Figure 11-2. Open file window
Open
Cancel
4. An input dialogue box will then ask users to provide information on the number
of independent variables in the model coefficient file, the maximum number of
trips, and the trip purpose. The user can either choose inputs from pull-down
menu or type inputs directly. In this example, the number of independent
variables is 2; the maximum number of trips is 6; and the trip purpose is HBW
(as shown in Figure II-3).
Input 13
Number of variables ]2 iJ
Max. Number of Trips J 6 iJ
Trip Purpose j iJ HBW HBNW NHB
OK
Figure 11-3. Input dialog box
5. With all the required inputs TransCAD will calculate the trip productions for
different household groups. The user can output the household trip productions
to an existing file or save it as a new file .
6. Once the calculation is done, the user has a choice of continuing to implement
another trip purpose. If the user selects "no", the ORP module will aggregate
trip productions for each TAP and save the TAP level trip productions into a file.
The TAP level trip production results are also connected to the map so that the
trip production information is provided in the "info" window by clicking on any
TAP.
The trip productions for home-based non-work and non-home-based trips are saved in
file "tap _production.dbf'.
III. Instructions for Using the Disaggregate Attraction End
Choice (DAEC) Model for Trip Distribution in TransCAD **
1. Input Files required
A prior implementation of the trip production phase is necessary to use the DAEC
model. The inputs required for the DAEC macro are summarized in Table III-1. The next
section discusses the requirements for the format and contents of the input files.
T bl III 1 I a e - : npu t F 0 l F I e t orma s an d C t t t Th DAEC M on ens or e aero S.No Inputs Input File Format File Fields
1 Trip Production Data (From trip .dbf TAPZ, PROD generation phase) (DBASE File)
2 Composite Impedance Matrix .mtx ROWID-TAPZ (TransCAD Matrix ) COLUMN ID -TAPZ
3 Socio Demographic Interaction .dbf SDGROUPS, COEFF Coefficients (from the DAEC Model) (DBASE File)
4 Land Use Characteristics (from the .dbf TAPZ,RETAIL, SERVICE, DAEC Model) (DBASE File) OFFICE, INDUSTRY, INST,
TOTEMPL 5 Land Use Coefficients (from the DAEC Provided by User or LUSE, COEFF
Model) .dbf (DBASE File)
2. Input File Description
The input files listed in Table III-1 are pre-requisites for the DAEC program. It is
necessary that the file formats and contents are the same as indicated in Table III-1. This
section elaborates on the requirements for file structure and contents to use the DAEC
macro.
2.1. Trip Production File
The DAEC macro allows the user to compute trip interchanges from zonal trip
productions using traveler socio demographic characteristics and attraction zone
characteristics. It is, therefore, necessary to implement the trip production phase before
the DAEC macro is used. The trip production file must provide a zone wise trip
production count. The zones are identified by their TAP numbers and the productions
* The current version of the DAEC Macro does not function for very large data sets of the order of900 zones. It is advisable to use the macro for smaller data sets of the order of 100 zones.
from these zones by a field "PROD". In essence, the trip production file must necessarily
have two columns - the first column representing the TAP and the second named PROD
showing the corresponding trips produced. The trip production file structure is shown in
Figure III-1. This file structure allows the user to compute trip interchanges for each trip
purpose separately.
727 5 984 7 191 8 476 9 996
10 1514 11 1621 12 2'56
13 1436 H 822 15 79 17 602 18 Hl 211 677 21 923 22 493 23 177 24 1392 25 3-43 32 629
Figure 111-1: Trip Production File Format
2.2. Impedance Matrix File
An individual's choice of attraction end for a trip 1s dependent upon the
impedance to travel between the production and attraction zones. In this project, a
composite impedance matrix has been used for trip distribution. The composite
impedance terms capture the combined effect of travel time (both in-vehicle and out-of
vehicle) and cost for each available mode on the utility of choosing a particular attraction
zone. The computation of these values has already been discussed in the previous
sections. The composite impedance matrix is a square matrix with a size equal to the
number of zones in the planning region. The row labels are the production zone ids and
the column labels are the attraction zone ids. The number of rows and columns in the
impedance matrix should be the same as the number of observations in the trip
production file. The matrix file structure and contents are shown in Figure III-2.
C"i't-.~• 3(!,Wil(f! V.;;:i>v
5 11 12 13 4 11.9400 42.7100 35.0200 54.6500 53.5700 5 42.7000 14.1)600 36.4700 36.7500 22.5200 51 .7200 45.9700
42.2700 36.4200 11.8400 10.noo 21.0700 18.0800 28.7300 33.3200 27.9900 8 45.5600 36.7000 18.7700 11.9800 21.3500 18.JGOO :a.0100 34.0200 28.2100 9 35.0400 29.6300 21 .0700 21 .3500 8.3400 11.0800 21.9400 36.3200 30.5700 10 36. 3900 27.5300 18.0900 18.3700 12.1800 8.8900 19.8400 33.3400 27.5900 11 35.0100 22.5200 28.7800 29.0600 21 .4800 19.8800 11.0700 44.0300 38.2800 12 54.5300 51.6400 33.2400 JJ.9900 36.2900 JJ.JOOO 43.9500 12.noo 19.8300 13 54. 7600 45.9000 27.9700 28.2500 J0.5500 27.5600 38.2100 19.8400 7.3300
.. !LJ
Figure 111-2: Impedance Matrix Contents
2.3. Socio Demographic Coefficients
People with different socio demographic characteristics have different perceptions
of disutility to travel. For this reason, the composite impedance matrix is not the same for
all socio demographic groups. The DAEC model takes this into account through an
interaction term between the socio demographic groups and the composite impedance.
The DAEC macro, therefore, seeks a socio demographic coefficient fil e. The number of
socio demographic groups varies from one trip purpose to the other. The number of
records in the socio demographic coefficient file is the same as the number of socio
demographic groups. The socio demographic groups are represented by the field
SDGROUPS and the corresponding interaction coefficients by the field COEFF. The file
structure is shown in Figure III-3 .
F _in<25K_noHSE -4.1590 F _in<25K_HSE ·3.3731
F _in<25K_Co1Ed -2.9743
F _in>25K_noHSE -3.8585 F _in>25K_HSE -3.0726 F _in>25K_Co1Ed ·2.6738 M_in<25J;_no1lSE -16621;
M_in<25K_HSE ·2.8767 M_in<25J;_Co1Ed .2.4n9
M_in>25K_noHSE ·3.3621 M_in>25J;_HSE -2.5762
M_in>25K_Co1Ed -2.1n•
Figure 111-3: Socio Demographic Interaction Coefficients
2.4. Land Use File
The number of trips attracted to a zone also depends on the attraction zone
characteristics. The zonal size measures are proxy measures for the number of elemental
destinations within a zone. In the current study, total zonal employment has been
introduced as a size measure for the HBW purpose and zonal retail and service
employment is used for HBNW and NHB purposes. In addition zonal office, industrial
and institute areas have also been included in the model. The DAEC macro, therefore,
also seeks a land use file to compute the trip interchanges between the zones. The land
use file must contain information on the zonal retail, service, industrial, institute areas
and the total zonal employment. The land use file structure is shown in Figure III-4.
0.00 0.20 0.00
0.00 D.60 0.00
0.00 35.10 0.00 16.20
0.00 5.80 7.60 2.70 0.00 34.20 29.40 6.40
2.40 64.40 0.00 73.10 0.00 0.10 0.00 28.70
8.20 58.10 U30 34.80
2.30 R60 0.00 14.70
0.00 0.00 0.00 0.00
0.00 19.00 12.30 0.00
0.00 32.10 0.00 0.00
0.00 10.JO 7.70 8.00
3.40 18.10 36.80 ~ .50 0.00 34.40 2.00 ~ .10 0.00 0.00 4.60 0.00
4.90 46.00 33.60 31 .60 3.00 0.00 0.00 11 .90
0.00 0.50 0.00
0.90 16.40
Figure 111-4: The Land Use File
3. Program Interface and Output File
The DAEC macro guides the user through the input process using dialog boxes
and prompt windows. This section describes the input sequence and the program
interface.
3.1 Executing the DAEC Macro
The DAEC macro can be executed usmg the GISDK Toolkit supported by
TransCAD. To open the GISDK toolkit, the user can choose Tools - Add-ins - G/S
Developer's Toolkit form the TransCAD window. This will open the GISDK toolkit
menu bar shown in Figure III-5.
Figure IJl-5. The GISDK toolbox.
011 rt101
To compile the DAEC macro, the user must choose the "001 button in the toolbox and
then choose the corresponding resource file that contains the source code. The source
code can then be executed by clicking on the ®j button in the GISDK toolbox. The
program will then prompt the user for the name of the macro as shown in Figure III-6.
The actual input process starts after the name of the macro has been entered. For the
current project, the DAEC macro is titled TripDistribution.
OK r. Macro' r Dialog Box
Cancel
Name !TripDistributiorl
Figure 111-6: Input Dialog Box for Name of Macro
3.2 Program Interface
To start with, the DAEC macro prompts the user for the trip purpose, the zone
count and the number of socio demographic categories relevant for the current trip
purpose. The prompt dialog box is shown in Figure III-7.
X
Trip Purpose lhbw
Number of Zones j858
Number of Socio Demographic Groups j,z
I OK ! Cancel I
Figure 111-7: Trip Purpose and Zone Count Input
Following the trip purpose and zone count inputs, the program prompts the user to
choose the composite impedance matrix file. The DAEC macro requires that the
impedance matrix file be in the .mtx format supported by TransCAD. The file dialog box
is shown in Figure III-8.
Look in: I (=51 gt avity
~cg.mtx
~ compimp.mtx
~ fricf act.mtx
~h_comp.rntx
~hbw.mtx
~imp.rntx
File name:
Files ol type:
~imped .mtx ~yasasvi_pa.mtx
~impedance.mtx
~ impe~nce 1. mtx
~ newtrips.mtx
~pa_mtx .mtx
~trips.mtx
r Open as read·only:
Figure 111-8: Impedance File Input
..1129
Open
C;,ncel
The program then prompts for the trip production file and the socio demographic
coefficients in that order. The files need to be in the .dbf format. Figure III-9 shows the
file dialog boxes.
Look in: I a Gravit;, model
Dresearch
2ltsz90
~ aqgr 1.dbf
~demoprod.dbf
~hcomp.dbf
~imp.dbf
~ landuse.dbf ~ yasasv
~ luse_tap.dbf
~ Lusedis.dbf
~pd.dbf
~ pamtrx .dbf
~ peak composite impedance.dbf
._~_,1 _ _ __________ _.I ~
nename: I demoprod. dbf Open
nes of type: j dBase file Cancel
r a pen as re.ad-only:
Figure III-9(a): Input Dialog Box for Trip Production File
Look in: I C3I Gravity model
~resea<ch Dtsz9o 8aggrl.dbf 8demoprod.dbf ~ h<:omp.dbf 8imp.dbf
~ landuse. dbf ~ y,.,,a.sv [=1tuse_tap.dbf ~ Lusedis .dbf 8pa.dbf ~pamtrx.dbf ~ peak composite impedance, dbf
L.~..J1.___ _____________ _,1 ~
File name: I Open
nes of type: jdBase file Cancel
r Open a s read-only:
Figure II1-9(b): Input Dialog Boxes for Trip Production and Socio Demographic Coefficient File
Finally, the DAEC macro prompts for the land use file and the land use
coefficients. The prompt dialog box and the input dialog box are shown in Figure III-10 .
.1.l~l !
Look in: l f j gav~y iJ +- l'.!;J d ITII· I ~.!)-AG_G_R-.D6f-------:!!l-im-ped-, -.d-bf- ~Lusedis I ~hbnw.dbf ~lue_tap.dbf ~r.ewim~ ! 1.:)HBNWcoeff.dbf ~luse.dbf ~ri>b.db I ~hbw.dbf ~luse_coeff .dbf ~NH8c(l( I
T olal Zonal E mplol""ffl!
Zon.al Retail a,nd Service Emplo_yrnent
Zonal Ret,,;1 Alea
~H6Wcoeff .dbf ~luse_te,p.dbf ~pa.dbf i ~imp.dbf :!!llusecoeff.dbf ~pamtrx I
I ~1 I ~ I
Open J I Cancel j 1
zon.,1 Olfice Alea
Zonal lr'ldustri,.,,IA,ea
File name: I Files of type: jdBase file
Zonol lnstitule Alea
.:l r Open as read-only
log ol Composde Size Measure
Q»Q C«>eel I
Figure 111-10: Land Use File and Coefficient Inputs
3.2 The Trip Interchange Matrix Output
The output from the DAEC macro is a matrix file showing the trip interchanges
from one zone to the other. The matrix obtained from the trip distribution stage shows the
trips produced from a zone and attracted to every other zone. The program informs the
user about the directory and file path of the trip matrix using a message dialog box. The
trip matrix can then be converted to an 0-D Matrix using the "PA to OD" function
provided by TransCAD. Figure III-11 shows a sample trip matrix output file. .. ,,\.:'Ill :•••' . .,, ·A•
fflFie Ecll: f,lap o.taview Selection Matnx L•yru Tools Procedres Plarm;i - H<lp
DI 127181 &IIH_coMP ~ Alriol:~l!Fl~~~I Ilii=liiTli:il' I 41 51 71 81 91 101 11 1 121 131 141 151
4 623.76 7.19 9.99 8.51 2.14 16.80 22.51 1.06 4.96 5.55 5.77 2.
5 13.01 6300 31 .17 29.67 7.03 66.14 190.54 2.32 l!i.29 17.04 17.04 4.1
7 4.65 7.81 550.73 107.34 7.56 100.67 27.99 3.72 29.90 32.85 27.55 8.1
8 2.15 4.58 66.07 310.98 4.34 5H1 16.28 2.08 17.38 19.10 16.09 3.1
9 6.58 11.81 53.81 50.23 142.32 410.41 52.83 2.02 16.13 17.78 15.47 3.
10 7.51 19.91 119.55 11Q77 49.26 1155.78 97.88 3.56 30.09 33.05 27.54 5.
11 16.11 75.35 44.10 41.68 12.67 129.50 1413.« 2.52 17.92 19.~ 18.80 4. 12 0.86 1.04 6.73 6.09 0.51 5.38 2.86 49.22 45.26 48.98 34.49 12.
13 0.43 0.80 6.28 5.93 0.48 5.32 2.38 5.28 751 .62 40837 192.22 7.
14 0.23 0.42 3.23 3.05 0.25 2.73 1.24 2.67 191 .05 457.47 140.43 3.
15 0.02 0.04 0.28 0.26 0.02 0.23 0.12 0.19 9.25 14.U 53.05 0.
17 1.8.3 1.66 13.37 8.07 0.72 7.06 4.29 11 .62 6.2.38 55.73 43.91 229.
18 0.09 0.15 0.88 Q84 0.07 0.74 6.40 0.57 16.59 13.21 8.40 2.
20 0.36 0.30 1.41 1.01 0.10 0.86 0.68 0.74 4.08 4.05 l.S7 2.
21 0.80 0.90 3.28 3.15 0.29 2.71 2.06 1.55 15.93 15.55 14.66 5.
22 0.37 0.50 1.87 1.80 0.16 1.54 1.16 0.83 9.41 9. 14 8.53 3.
Figure Ill-11: Trip Interchange Matrix Output
Instructions for Using the Trip Interchanges Workspace to Obtain Trip
Information
1. Opening the Workspace
Open the TransCAD window and go to the File -> Open Work Space option as
shown in the picture below.
Figure 111-12. Opening a TransCAD workspace.
This opens a File Open Dialog box as above. Follow the path shown below:
Trip Distribution-> Output-> Triplnterchanges.wrk
This will lead to the screen shown in Figure III-I 2.
m~~~,.,J.jz,J;~"!!£Bt:.:m1urt:;~;,:l;;· ·:;,' t:s::·e . . !, :· ,~ ft: fjt H::p (•<)';.,;•.~¢W '.:itl·~~t-0,-i. ' •'.<)!;">:.C: ~:U·)J: l,:;(,r) ;'t~<f:,!Cd<...~, ·\1'~:;:, 1'1':,'.;
_.JJ;JL~
D,
131(0
(C«elD
-'-'''------------------------------~r~iii1-' ,. :,i·.'.''a .. ;;,1~*1 ~~~-R~w:kt::t,:11 (9-T;;~- -- , "' d ~f - ,... -~StartJIJ ~ ~ ~ jj ")f,Vahoo!Messel"Q!f I ~ThelrlVffSlt>~c/Tt>YM_!J !arransCAO
r-•----------,------·-Ji..e .~ -.> i-_:: 1:38PM
Figure 111-13. The Trip Interchange Workspace.
The screen opens with a vertical tool bar as shown. Please note that the
desire lines shown are just an example. You can obtain information on trip interchanges
between any two zones by using the Tools ->Geographic Analysis ->Desire Lines and
then suitably choosing the required trip interchange matrix.
The layers in the map are displayed on the top left hand corner of the
window. Select the required layer to display it. For instance, to view the trips made by
driving alone in the AM peak, select the corresponding layer from the menu. To display
the trip information, select the Q button from the tool bar. This attaches the "i" to the
mouse pointer. Trip interchanges by mode and departure time can now be displayed by
clicking on each of the desire lines displayed. The process may be repeated for any of the
layers in the map.
IV. Instructions for Using the Mode Choice Models
The mode choice estimation input and output files are saved in "e:\Mode Choice" by trip
purpose. The HBW trip files are in "e:\Mode Choice\HBW", the HBNW trip files are in
"e:\Mode Choice\HBNW", and the NHB trip files are in "e:\Mode Choice\NHB".
1. Input Files
a. Model parameter file: hbw.bin (for HBW), hbnw.bin (for HBNW),
nhb.bin (for NHB)
b. LOS file: peak.mtx (for peak hours), NHB(HBNW)_LOS.mtx (for off
peak hours)
2. Output Files
a. For HBW trips: HBWAMOD.MTX (for AM peak hour 7-8 AM),
HBWOD.MTX (for 24-hour volume), and HBWPMOD.MTX (for PM
peak hour 5-6 PM)
b. For HBNW trips: HBNWAMOD.MTX (for AM peak hour 7-8 AM),
HBNWOD.MTX (for 24-hour volume), and HBNWPMOD.MTX (for PM
peak hour 5-6 PM)
c. For NHB trips: NHBAMOD.MTX (for AM peak hour 7-8 AM),
NHBOD.MTX (for 24-hour volume), and NHBPMOD.MTX (for PM
peak hour 5-6 PM)