Below is the uncorrected machine-read text of this chapter, intended to provide our own search engines and external engines with highly rich, chapter-representative searchable text of each book. Because it is UNCORRECTED material, please consider the following text as a useful but insufficient proxy for the authoritative book pages.
CHAPTE 3.1. Rock 3.1.1. O The modeling Environm related n Environm integratio tools to an Two AEDT an integratio the user t the only r AEDT. T RUMBLE accept roc program, (non-spac would ben for comm Dem example v instruction the instru Volpe Ce captures o features a incorpora R 3. AEDT et Noise Mo verview projected gro tool to asse ental Design oise and em ent and Ener n of RUMBLE alyze aviatio integration p d a full integr n plans is pre o run RUMBL equirement o he low-level and AEDT. ket-specific (4) accept ou ecraft) result efit users by ercial aviatio FIG onstrations o ertical launc s are partial ctional resour nter âCreate f AEDTâs u re required, te the new Integratio del wth of the co ss the enviro Tool (AED issions. AE gy suite of s with AEDT nâs environm lans are env ation plan to sented in FIG E as a separa f the low-lev integration p The full inte data, (2) gen tput from RU s. Despite the allowing the n-related nois URE 3-1 Co f the two int h from Kenn ly reproduced ce document New Study ser interface a conceptua elements. Th n Plan mmercial spa nmental eff T) is the sta DT is part oftware tools is a logical ental effects isioned: a lo incorporate t URE 3-1. I te stand-alon el integratio lan represen gration plan erate RUMBL MBLE, and t increased co m to evaluat e. nceptual rep egration plan edy Space Ce from the AE named âExe Exerciseâ], are used to l design is ese new el ce industry w ects of comm ndard tool u of the Fed known as th step toward a . w-level integ he RUMBLE mplementatio e program a n plan is tha ts the curren expands AED E input, (3) hen (5) comb mplexity of e commercia resentation s are provid nter (KSC) L DT 2c User rcise_Create both downl illustrate th presented by ement design ill increase t ercial spac sed to chara eral Aviatio e Aviation E chieving a c ration plan model into A n of the low nd import its t the output t status of in Tâs current pass that inp ine the RUM the full-integ l space opera of the integr ed in Section aunch Comp Guide [U.S. NewSutdy_P oadable with e exercise st modifying features a he demand f e transportat cterize and n Administr nvironment omprehensiv to import RU EDT. An illu -level integra results into of RUMBLE i tegration ca capabilities ut to RUMBL BLE output w ration plan, tions using t ation levels. s 3.1.2 and lex 39. The DOT Volpe art1_StudyD the AEDT eps. When n the AEDT s re suggestio or a standard ion. The Av quantify avi ationâs Offi al Tool Suite e suite of sof MBLE result stration of th tion plan req AEDT. Ther s compatible pabilities bet so that it ma E and execu ith other av its implemen he same tool 3.1.3 based exercise step Center, 2016 etailsâ [U.S. software. S ew user inte creen captur ns for illust 3-1 noise iation ation- ce of . The tware s into e two uires efore, with ween y (1) te the iation tation used on an s and ] and DOT creen rface es to ration
3-2 purposes, whereas the future implementation may adopt different designs. Red boxes are used to outline the new user interface design features. 3.1.2. Low-Level Integration Demonstration A low-level integration plan was developed with the intention of providing a near-term solution for integrating RUMBLE and AEDT. AEDT 2c has the capability to import external noise modeling results if they adhere to the Noise Model Grid Format (NMGF). Thus, RUMBLEâs NMGF file output is currently compatible with AEDT, which means that RUMBLEâs Grid (*.grd) files can be imported into AEDT. Additionally, imported RUMBLE results can be combined with AEDT results as long as they both include the same noise metric and same receptor set. In AEDT 2c, the ability to generate a noise contour layer from an external Grid file is not currently available without first defining its receptor set within AEDT. If the external Grid fileâs receptor locations match and are listed in the same order as AEDTâs receptors, then the user can define the external receptor set within AEDT and override that receptor set when importing the noise metric result, leveraging the current AEDT functionality. This small work around will allow the user to generate a contour layer from the imported metric result. Generating a noise contour layer allows the user to access some of AEDTâs features such as exporting shapefiles or generating a âMap Snapshotâ of the noise contours overlaid on one of the Esri Base Map layers available in AEDT. Recommended future AEDT upgrades include the capability to recognize external noise grids natively and the ability to combine grids with different receptor sets. The major steps in this demonstration are as follows: 1. Run metric result in RUMBLE and export Grid file, 2. Create a new AEDT study, 3. Create a grid receptor, 4. Create a receptor set, 5. Import RUMBLE metric result, 6. Combine RUMBLE and AEDT metric results, 7. Generate noise contour layer, 8. Export Noise metric results. Low-Level Integration Demonstration Instructions: STEP 1: Run RUMBLE To run RUMBLE, follow the step-by-step instructions provided in the RUMBLE 2.0 user guide.
 STEP 2: Follow th database s 1. O 2. C th 3. Ed fie 4. C The Metri been creat STEP 3: Follow th associated 1. C 2. In 3. In a. b. c. d. e. 4. C The recep Create a New e step below erver: pen the AED lick on the St e Create New it the Set stu lds. lick New to c c Results tab ed. Create a Gri e steps bel with the RU lick on the D the Display the Actions r Edit the Na From the T Edit the X spacing fie In the Grid Y Offset fie Confirm th desired sp origin). lick Save to c tor is created AEDT Stu to create a n T application udy tab then Study dialog dy name and reate the stud will open wh d Receptor ow to defin MBLE Grid (* efinitions tab ribbon group ibbon group, me field. ype drop-dow count, Y cou lds. Origin Info lds. at the Locati aceport loc reate the new and listed in dy ew study on . click New to . Set study des y. en the new s e the grid .grd) file: . , click Recept click New. n menu, sele nt, X spacin , edit the X O on Info repre ation (i.e. s receptor. the Definitio the local display cription tudy has F receptor ors. ct Grid. g, and Y ffset and sents the paceport ns pane. IGURE 3-2 FIGURE Create new 3-3 Recept study dialo or details. 3-3 g.Â
STEP 4: A re assigned t 1. In 2. In 3. C T Create a Rec ceptor set is o a receptor s the Display the Actions a. Edit th b. Leave c. In the lick Save to c he receptor se eptor Set a collection et. Follow th ribbon group ribbon group e Receptor se the Dynamic Available rec reate the new t is created a F of receptors e steps below , click Recep , click New an t name field grid checkbo eptors list, se receptor set nd is listed in IGURE 3-4 . To use rece to define a r tor Sets. d enter the f . x unchecked lect desired r . the Definitio Receptor se ptors in a m eceptor set: ollowing data . eceptors and ns pane. t details. etric result, : click the Add they must be Arrow. 3-4 first
 STEP 5: This result: 1. In 2. C 3. C 4. Se 5. En m im 6. C 7. W R 8. Se se Import Rock feature allow the Metric R lick the Impo lick the Brow lect DNL as ter the exis essage is disp port process lick OK to im hen the imp esults pane. T lect the impo t layer on the  et Noise Me s users to im esults tab, lo rt button to o se button and the target noi ting receptor layed about . port the grid ort process i he new recep rted new noi map. F tric Result port the no cate the Metr pen the Impo select a RUM se metric fro set name t the existing file. s complete, tor set is disp se metric res IGURE 3-5 ise results co ic Result Act rt Metric Res BLE DNL G m the list. o override t receptor set n the new noi layed in the ult and click Import met ntained in a ions group in ult dialog. rid (*.grd) fi he existing r ame, click N se metric res Definitions t the Receptor ric result. NMGF file. the ribbon. le. eceptor set. o to overrid ult is displa ab, Receptor Set button to To import m When a wa e and continu yed in the M Sets view. view the rec 3-5 etric rning e the etric eptor
STEP 6: If de as long as select the combined To c 1. In se 2. In C 3. E 4. C 5. T 6. S on STEP 7: Data 1. In 2. Fr 3. T 4. E 5. C 6. T Only cont STEP 8: To e export the 1. In 2. In 3. E 4. A Combine RU sired, the imp the results h two metric r into one met ombine noise the Metric R t. the Metric ombiner dial nter â1â for th lick OK. he new comb elect the new the map. Generate No can be visua the Metric R om the View he Contour S ither accept t lick OK. he contour la ours that can Export Noise nable the Exp selected noi the Metric R the Metric R nter the file n grid file is sa MBLE and A orted RUMB ave the sam esults with t ric result. metric result esults tab, s Result Action og. e weighting ined noise m noise metric FIGUR ise Contour lized on the m esults pane, ribbon grou ettings dialog he default mi yer is display be closed wi Metric Res ort button, s se metric resu esults pane, esult Actions ame and clic ved to the se EDT Metric LE metric res e noise metri he same nois s: elect two met s group in t factors for th etric result is result and cl E 3-6 Line Layer ap by gener select a desir p, click the C is displayed nimum, maxi ed on the ma ll be displaye ult elect a comp lt in a NMGF select a comp group in the k Save. lected locatio Results ult can be co c and same r e metric and ric results w he ribbon, cl e selected me displayed in ick the Recep ar metric res ating GIS lay ed noise metr ontour button . mum and inc p and in the L d on the map leted noise m file. To exp leted noise m ribbon, click n. mbined with eceptor set. same recept ith the same ick the Com tric results in the Metric R tor Set butto ults combin ers. To view ic result that . rement value ayers manag . etric result. ort noise met etric result. the Export b any AEDT To enable th or set. The t noise metric bine button t the Scalar f esults pane. n to view the er. noise contou has been pro s; or enter ne er. This button ric result: utton. study metric e Combine b wo metrics c and same rec o open the L ields. receptor set r layers: cessed. w settings. allows the u 3-6 result utton, an be eptor inear layer ser to
 3.1.3. F The commerci with AED input and userâs sele combine w The minimal m AEDT m AEDTâs f in separat spacecraft spacecraft The 1. C 2. A 3. A 4. A 5. C 6. C 7. C 8. C 9. C 10. D 11. R 12. E * Ste Full Inte STEP 1: Follow th database s 1. O 2. C C 3. E fi 4. C The Metri been creat ull Integratio full integrati al space oper T, software modeling fe ctions and p ith any non- design of A odifications odeling platf leet database e tables, the ) so that its t specific airp major steps in reate a new dd and view dd launch p dd launch tr reate spacec reate spacec reate an ann reate a grid reate a recep efine metric un metric re xport noise m p that requir gration Dem Create a New e step below erver. pen the AED lick on the St reate New St dit the Set stu elds. lick New to c c Results tab ed. n Demonstra on plan was ations within and user inte atures. AEDT ass the files t rocket metric EDTâs user . RUMBLEâs orm that wi currently org RUMBLE fl ables can be i ort layout co this demons study, a spaceport, ad layout elem ajectory layo raft launch op raft static ope ualization, receptor, tor set, results, sults, etric results es RUMBLE sp onstration Study to create a ne T application udy tab then udy dialog. dy name and reate the stud will open wh tion developed t the AEDT a rface modific will genera o RUMBLE. A results to ev interface wil standard inpu ll allow a sm anizes differ eet database ntegrated int mponents. tration are as ent*, ut element*, eration*, ration*, . ecific modifi Instructio w study on th . click New to Set study des y. en the new s o provide A pplication. T ations must te the require EDT will th aluate the tot l accommod t file was de ooth integra ent aircraft t can be assi o the existing follows: cations. ns: e local display the cription tudy has EDT users w o achieve a s be made to a d RUMBLE s en retrieve th al metric resu ate a majori veloped to m tion of the ypes (comme gned a new AEDT fleet FIGUR ith the cap eamless integ ccommodate tandard inpu e RUMBLE g lt defined by ty of the RU aintain cons two models rcial, militar aircraft typ database. AE E 3-7 Crea dialog. ability to eva ration of RU RUMBLE sp t file based o rid file outpu the user. MBLE input istency acro in the futur y, and helico e designation DT must als te new study  3-7 luate MBLE ecific n the t and with ss the e. As pters) (i.e. o add
STEP 2: Follo 1. C 2. I 3. I 4. A 5. T 6. C 7. S 8. I The Airport/Sp Note defined in RUMB ï· ï· ï· ï· Add and Vie w the steps b lick on the A n the Actions n the Add Ex confirmatio he spaceport lick on the ( elect the spa n the Airport spaceport la aceport Lay , if the space the AEDT u LE Integratio Update Air Provide gu Update the Update th update the w a Spacepo elow to add irports/Spac ribbon group isting Airpor n message is is added to t +) icon next t ceportâs Defa /Spaceport L yout is disp ers category o port does no ser manual. n Considera port to Airpo idelines on a AEDT airpo e AEDT use existing proc FIGU rt a new spacep eports tab. , click Add, t/Spaceport d displayed, cl he study and o the spacep ult Layout. ayouts ribbon layed on the f the Layers t currently ex tions: rt/Spaceport default airpo rts database t r manual to edure to add RE 3-8 Ad ort to the stud then select Ex ialog, select ick OK. listed in the A ort to expand group, click map, and manager. ist, then foll . rt code in lie o include exi include proc a new airpor d existing ai y and view t isting Airpor the desired sp irports/Spac the spacepor View. the correspo ow the proce u of a standar sting spacepo edures to ad t to include la rport dialog he spaceport t/Spaceport. aceport and eports pane. t layouts list. nding layer dure to add a d code. rts. d a new spa nguage for s . layout: click Add. is created i new spacep ceport. (Or paceports.) 3-8 n the ort as
 STEP 3: For a 1. C 2. S 3. I 4. C 5. C 6. S 7. C RUMB ï· ï· Add Launch vertical rock lick on the ( elect the spa n the Airport lick on the m lick Save De elect the lau lick OK to a LE integratio Update Air Add the la  /Landing Pa et, follow th +) icon next t ceport layout /Spaceport L ap in the de sign to close nch/landing p pply changes n considera port to Airpor yout design o FIGUR d Layout El e steps below o the spacep . In the Airpo ayout Design sired location the Airport L ad componen . tions: t/Spaceport. ptions Add L E 3-9 Airp FIGURE 3- ement to create a la ort to expand rt/Spaceport toolbar, click to add a laun ayout Desig t in the Deta aunch Pad an ort/Spacepo 10 Edit rock unch/landing the spacepor Layout ribbo Add Launch ch pad. n toolbar. ils pane to ed d Add Landi rt layout des et pad. pad: t layouts list. n group, clic /Landing Pa it the desired ng Pad. ign panel. k Design. d. fields. 3-9
STEP 4: AED by RUMB immediate trajectory Follo 1. C 2. S 3. I E 4. C RUMB ï· ï· Add Spacecr T may gener LE from a us ly available, provided by w the steps b lick on the ( elect the spa n the Airpor dit Spacecra a. Edit th b. Edit th c. Click O lick Save De LE integratio Expand de Create use the trajecto aft Launch ate the three er selected tr it is suggest vehicle manu elow to creat +) icon next t ceport layout t/Spaceport L ft Trajectory e Name and e table manu K. sign to close n considera sign tool to in r interface fo ry from an e FIGURE Trajectory L -dimensional ack and profi ed that AEDT factures. e/import a cu o the spacep . In the Airpo ayout Design dialog. Operation Typ ally OR click the Airport L tions: clude Add Sp r Add Spacec xcel or csv fi 3-11 Edit ayout Elem trajectory d le pair. How add the cap stom spacecr ort to expand rt/Spaceport toolbar, cli e fields. Upload to b ayout Desig acecraft Tra raft Trajecto le. spacecraft tr ent ata in one-se ever, as stand ability to cre aft trajectory the spacepor Layout ribbo ck Add Space rowse and se n toolbar. jectory elem ry Dialog tha ajectory dia cond time in ard rocket p ate/import a . t layouts list. n group, clic craft Trajec lect a trajecto ent. t includes th log. crements req rofiles may n custom spac k Design. tory to displa ry. e option to u 3-10 uired ot be ecraft y the pload
 STEP 5: Follo 1. C 2. I 3. I w 4. A 5. C 6. A 7. C 8. S The entries in RUMB ï· ï· ï· Create Spac w the steps b lick on the O n the Display n the Spacec izard. ssign Opera a. In the b. Edit th c. Click N hoose Equip a. Select b. Click N ssign Opera a. Select b. Click N hoose Traje a. Select highlig b. Click N ummary: a. Review b. Click C new operation the Operation LE integratio Add Space The Opera AEDT wil  ecraft Launc elow to creat perations tab ribbon grou raft Actions tion Type and Operation typ e Operation ext. ment: the desired sp ext. tion Time: the Assign op ext. ctory: Launch Traj hted on the m ext. the selectio reate. is created a s pane. n considera craft button i tion type nom l load tables a FIGU h Operation e a spacecraf . p, click Space ribbon grou Spaceport L e drop-down count field an acecraft from eration time ectory from ap. Zoom in ns from the p nd listed in th tions: n the Display enclature sh ssociated wi RE 3-12 Cr t launch oper craft. p, click New ayout: menu, selec d select a sp the equipm radio button trajectory l on the map t revious steps e Operations ribbon grou ould include th the spacec eate spacecr ation: to open the t Launch. aceport layou ent table. and edit the O ist. (The gro o view the tr in the Curre pane. Click p of the Oper Launch and L raft database aft operation Create Spa t from the tab peration tim und track o ack location. nt Selection a Get operation ations tab. anding. for user equi . cecraft Oper le. e field. f the trajecto ) rea. s⦠to load t pment selecti 3-11 ation ry is he on.
STEP 6: Follow 1. C 2. In 3. In w 4. A 5. C 6. A 7. Pr 8. Su The entries in RUMB ï· ï· Create Spac the steps be lick on the O the Display the Static A izard. ssign Spacep a. Edit th b. Click N hoose Equipm a. Select b. Click N ssign Operat a. Select b. Click N ovide Static a. Select b. Edit th c. Click N mmary: a. Review b. Click C new operation the Operation LE integratio Add Static AEDT wil ecraft Static low to create perations tab ribbon group ctions ribbo ort Layout: e Operation ext. ent: the desired sp ext. ion Time: the Assign op ext. Details: vehicle orien e Latitude, L ext. the selectio reate. is created a s pane. n considera button in the l load tables a FI Operation a spacecraft . , click Static. n group, clic count field an acecraft from eration time tation from d ongitude, He ns from the p nd listed in th tions: Display ribb ssociated wi GURE 3-13 static operat k New to op d select a sp the equipm radio button rop-down me ight, Heading revious steps e Operations on group of t th the spacec Provide sta ion: en the Crea aceport layou ent table. and edit the O nu. , and Durati in the Curre pane. Click he Operation raft database tic details. te Spacecraf t from the tab peration tim on fields. nt Selection a Get operation s tab. for user equi t Static Oper le. e field. rea. s⦠to load t pment selecti 3-12 ation he on.
 3-13 STEP 7: Create an Annualization In AEDT, an annualization is a group of operations that is associated with the following: time period to be analyzed, operations included in the time period, weighted groupings of the included operations, and subset of processing options for the included operations. Annualizations provide a convenient way to evaluate environmental consequences that represent noise and emissions over the time period of interest with potentially different weighting of individual operation groups. In this example, the operations will be weighted equally, and operation groups will be created for demonstration purposes. Follow the steps below to build an annualization consisting of the operations created in previous steps: 1. In the Operations tab, Display ribbon group, click Annualizations. 2. In the Annualization Actions ribbon group, click New to open the Create Annualization wizard. 3. Assign Existing Operation Groups: a. Check the Add new spacecraft operation group(s) option. b. Check the Add new static operation group(s) option. c. Click Next. 4. Create Spacecraft Operation Groups: a. Edit the Add new operation group field and click Add. b. From the Available operations list, select and drag the launch operation to the group. c. Click Next. 5. Create Static Operation Groups: a. Edit the Add new operation group field and click Add. b. From the Available operations list, select and drag the static operation to the group. c. Click Next. 6. Build Annualization: a. From the Defined operations group list, hold the control key and select and drag the operation groups into the Root annualization. b. Weighting could be applied to the operation groups at this point. For this example, leave the weighting as â1.â c. Double-click the Root annualization name and edit the name. d. Click Next. 7. Set Processing Options: a. Click Create. The new annualization is listed in the Operations pane. RUMBLE Integration Considerations: ï· Add the Add new spacecraft operation group(s) option to the Create Annualization wizard. ï· Add the Add new static operation group(s) option to the Create Annualization wizard.
3-14 STEP 8: Create a Grid Receptor Receptors define the locations where noise and emissions are calculated. Follow the steps below to define a grid receptor (See FIGURE 3-3): 1. Click on the Definitions tab. 2. In the Display ribbon group, click Receptors. 3. In the Actions ribbon group, click New. a. Edit the Name field. b. From the Type drop-down menu, select Grid. c. Edit the X count, Y count, X spacing, and Y spacing fields. d. In the Grid Origin Info, edit the X Offset and Y Offset fields. e. Confirm that the Location Info represents the desired spaceport location (i.e. spaceport origin). 4. Click Save to create the new receptor. The receptor is created and listed in the Definitions pane. STEP 9: Create a Receptor Set A receptor set is a collection of receptors. In order to use receptors in a metric result, they must be first assigned to a receptor set. Follow the steps below to define a receptor set (see FIGURE 3-4): 1. In the Display ribbon group, click Receptor Sets. 2. In the Actions ribbon group, click New and enter the following data: a. In the Receptor set name field, enter âKSC 50x50 Receptor Set.â b. Leave the Dynamic grid checkbox unchecked. c. In the Available receptors list, select KSC 50x50 Grid and click the Add Arrow. 3. Click Save to create the new receptor set. The receptor set is created and is listed in the Definitions pane. STEP 10: Define Metric Results Follow the instructions below to define noise (DNL) metric results: 1. Click on the Metric Results tab. 2. In the Metric Results Actions ribbon group, click Define to open the Define Metric Results wizard. 3. Choose Metrics: a. From the Available metrics list, select DNL then click the Add Arrow. b. Click Next. 4. Choose Receptor Sets: a. From the Available receptor sets list, select receptor set and click the Add Arrow. b. Click Next. 5. Select Annualization: a. Select Annualization. b. Click Next. 6. Set Processing Options: a. Select the DNL metric from the table. View selected options and keep default settings. b. Click Next. 7. Summary: a. Review the selections in the table and click Create to define the metric results. The new metric results are listed in the Metric Results pane.
 3-15 STEP 11: Run Metric Results Follow the instructions below to run the metric results definitions: 1. Locate the Metric Result Actions ribbon group. 2. Click Run All to run all metric results definitions. When the metric results have finished running, the State column in the Metric Results pane will display a green check icon. STEP 12: Export Noise Metric Result To enable the Export button, select a completed noise metric result. This button allows user to export the selected noise metric result in a NMGF file. To export noise metric result: 1. In the Metric Results pane, select a completed noise metric result. 2. In the Metric Result Actions group in the ribbon, click the Export button. 3. Enter the file name and click Save. 4. A grid file is saved to the selected location.  3.2. Sonic Boom Model 3.2.1. Overview The projected growth of the commercial space industry will increase the need for standard noise and sonic boom modeling tools to assess the environmental effects of commercial space transportation. The Aviation Environmental Design Tool (AEDT) is the standard tool used to characterize and quantify aviation-related noise and emissions. AEDT is part of the Federal Aviation Administrationâs Office of Environment and Energyâs suite of software tools known as the Aviation Environmental Tool Suite. This section describes the integration of PCBoom with AEDT that would provide AEDT userâs with a tool to analyze the environmental effects of sonic boom generated from commercial space vehicles. Two integration plans are envisioned: a low-level integration plan to import PCBoom results into AEDT and a full integration plan to incorporate the PCBoom model into AEDT. An illustration of the two integration plans is presented in Figure 3-14. Implementation of the low-level integration plan requires the user to run PCBoom as a separate stand-alone program and import its results into AEDT. Therefore, the only requirement of the low-level integration plan is that the output of PCBoom is compatible with AEDT. The full integration plan expands AEDTâs current capabilities so that it may (1) accept rocket-specific data, (2) generate PCBoom input, (3) pass that input to PCBoom and execute the program, (4) accept output from PCBoom, and then (5) combine the PCBoom output with other aviation (non-spacecraft) results. Despite the increased complexity of the full-integration plan, its implementation would benefit users by allowing them to evaluate commercial space operations using the same tool used for commercial aviation-related noise. An added benefit is that, with proper modifications to AEDT and the corresponding database updates, PCBoom could be used to analyze supersonic aircraft operations within AEDT. Demonstrations of the two integration plans are provided in Sections 3.2.2 and 3.2.3 and are based on an example launch from the Mojave Air and Space Port (KMHV). The exercise steps and instructions are partially reproduced from the AEDT 2c User Guide [U.S. DOT Volpe Center, 2016] and the instructional resource document named âExercise_CreateNewSutdy_Part1_StudyDetailsâ [U.S. DOT Volpe Center âCreate New Study Exerciseâ], both downloadable with the AEDT software. Screen captures of AEDTâs user interface are used to illustrate the exercise steps. When new user interface features are required, a conceptual design is presented by modifying the AEDT screen captures to incorporate the new elements. These new element design features are suggestions for illustration
purposes, the new u An i PCBoom regularly compatibl receptor p screen. H generated imported Since it is and witho implemen Recom grids 3.2.2. L A lo integratin adhere to grids as r grids (or s In A available match and set within current A whereas the ser interface FIGU mportant par noise grids spaced contr e with and c oints and the owever, AE by PCBoom receptors are important th ut a loss of tation. mended fu natively and ow-Level In w-level integ g PCBoom an the NMGF. eceptor point ets) although EDT 2c, the without first are listed in AEDT and EDT function future implem design featur RE 3-14 C t of both int are irregular ol points. Bo an be impor metric valu DT currently , or combinin brought in a at AEDT ha fidelity, the ture AEDT u the ability to tegration Dem ration plan w d AEDT. AE The low-leve s; it also des PCBoom do ability to gen defining its r the same ord override that ality. This sm entation ma es. onceptual re egration plan ly shaped w th integratio ted into AED e at each grid does not s g two differe s points, and ve the capabi se functional pgrades inc combine grid onstration as developed DT 2c has t l integration cribes the fu es not curren erate a noise eceptor set w er as AEDTâ receptor set all work aro y adopt diffe presentation s is how PC hich means n plans desc T; the grid point displa upport conto nt grid sets f contouring in lity to impor ities are bei lude the capa s with differe with the int he capability plan describ nctionality fo tly generate r contour laye ithin AEDT. s receptors, t when impor und will allo rent designs of the integ Boom noise they are not ribe how PC coordinates c yed using a uring of irre or the purpo AEDT can t PCBoom n ng investigat bility to reco nt receptor s ention of pro to import PC es how to im r importing egular noise r from an ex If the extern hen the user ting the nois w the user to . Red boxes ration levels grids are h rectangular Boomâs NM an be impor color map in gular grids, se of contour only be done oise grids in ed and are p gnize PCBoo ets. viding a nea Boom mode port PCBoom regular noise grids. ternal Grid f al Grid fileâs can define th e metric res generate a c are used to o . andled by A and do not GF file outp ted into AED the metric r such as the ing, because on receptor their original lanned for f m noise r-term solutio ling results i âs irregular grids as rec ile is not cur receptor loca e external rec ult, leveragin ontour layer 3-16 utline EDT. have ut is T as esults type these grids. state uture n for f they noise eptor rently tions eptor g the from
 the impor AEDTâs overlaid o The majo 1. R 2. C 3. C 4. C 5. Im 6. C 7. G 8. E Low-Lev STEP 1: Follo STEP 2: Follo local data 1. O 2. C C 3. E fi 4. C The Metr been creat [Skip step rectangula STEP 3: Follo associated 1. C 2. In 3. In a. b c. d ted metric re features such n one of the E r steps in this un metric res reate a new A reate a grid r reate a recept port PCBoo ombine PCB enerate sonic xport sonic b el Integrat Run PCBoom w the step-by Create a New w the step base server. pen the AED lick on the S reate New St dit the Set s elds. lick New to c ic Results tab ed. s 3 and 4 r.] Create a Gri w the steps with the PC lick on the D the Display the Actions Edit the Na . From the T Edit the X spacing fie . Confirm t desired spa sult. Genera as exporting sri Base Ma demonstrati ult in PCBoo EDT study, eceptor, or set, m metric resu oom and AED boom contou oom metric r ion Demons -step instruc AEDT Stu below to cre T application tudy tab then udy dialog. tudy name an reate the stud will open w if the grid d Receptor below to Boom Grid ( efinitions tab ribbon group ribbon group me field. ype drop-dow count, Y lds. hat the Loc ceport locati ting a sonic shapefiles p layers avai on are as foll m and export lt, T metric res r layer, esults. tration Ins tions provide dy ate a new st . click New to d Set study y. hen the new to be impo define the *.grd) file. . , click Recep , click New. n menu, sel count, X spa ation Info r on (i.e. space boom contou or generating lable in AED ows: Grid file, ults, tructions: d in the PCB udy on the display the description study has rted is not grid receptor tors. ect Grid. cing, and Y epresents the port origin). r layer allow a âMap Sn T. oom user gui FIGURE 3 s the user apshotâ of t de. -15 Create to access som he boom con new study di 3-17 e of tours alog.
4. C The recep STEP 4: A re first assig 1. In 2. In a. b c. 3. C The lick Save to c tor is created Create a Rec ceptor set is ned to a recep the Display the Actions Edit the Re . Leave the D In the Ava lick Save to c receptor set is reate the new and listed in eptor Set a collection o tor set. Follo ribbon group ribbon group ceptor set na ynamic grid ilable recepto reate the new created and FI receptor. the Definitio f receptors. w the steps b , click Recep , click New an me field. checkbox un rs list, select receptor set is listed in th GURE 3-17 ns pane. In order to u elow to defin tor Sets. d enter the f checked. desired recep . e Definitions Receptor se se receptors i e a receptor ollowing data tors and clic pane. FIGU t details. n a metric re set. : k the Add Ar RE 3-16 R sult, they mu row. eceptor deta 3-18 st be ils.
 STEP 5: This outputs a import me 1. In 2. C 3. C 4. S 5. E m im 6. C 7. W R 8. S re Sonic ï· ï· Import Soni feature allow variety of m tric result: the Metric R lick the Impo lick the Brow elect SEL as t nter the exis essage is dis port process lick OK to im hen the impo esults pane. T elect the imp ceptor set lay Boom Mode PCBoom m weighted S Of these P SEL; add f c Boom Metr s users to i etrics. The A esults tab, lo rt button to o se button and he target son ting recepto played about . port the grid rt process is he new recep orted new so er on the ma FI l integration etrics includ EL, C-weigh CBoom met unctionality ic Result mport the so -weighted S cate the Metr pen the Impo select a PCB ic boom metr r set name t the existing file. complete, th tor set is dis nic boom me p. GURE 3-18 notes: e: maximum ted SEL, and rics, AEDT c to AEDT to e nic boom re EL (SEL) m ic Result Act rt Metric Re oom SEL G ic from the li o override t receptor set n e new sonic b played in the tric result an Import met overpressure Flat-weighte urrently imp nable import sults contain etric is used ions group in sult dialog. rid (*.grd) fi st. he existing ame, click N oom metric Definitions t d click the R ric result. (psf), peak l d SEL. orts only A- of all PCBoo ed in a NM as an examp the ribbon. le. receptor set. o to overrid result is displ ab, Receptor eceptor Set evel (dB), lo weighted SE m metrics. GF file. PCB le in this ste When a wa e and continu ayed in the M Sets view. button to vie udness (PLdB L and C-wei 3-19 oom p. To rning e the etric w the ), A- ghted
STEP 6: If de long as th the two m combined To c 1. In re 2. In C 3. E 4. C 5. T 6. S la STEP 7: Data 1. In 2. Fr 3. T 4. E 5. C 6. T Only STEP 8: To e export the 1. In 2. In 3. E 4. A Combine PC sired, the imp e results have etric results into one met ombine noise the Metric R ceptor set. the Metric ombiner dial nter â1â for th lick OK. he new comb elect the new yer on the m Generate So can be visua the Metric R om the View he Contour S ither accept t lick OK. he contour la contours tha Export Sonic nable the Exp selected boo the Metric R the Metric R nter the file n grid file is sa Boom and A orted PCBoo the same no with the sam ric result. metric result esults tab, s Result Action og. e weighting ined sonic bo sonic boom ap. nic Boom Co lized on the m esults pane, ribbon grou ettings dialog he default mi yer is display t can be close Boom Metr ort button, s m metric resu esults pane, esult Actions ame and clic ved to the se FI EDT Metric m metric res ise metric an e sonic boom s: elect two me s group in t factors for th om metric re metric result ntour Layer ap by gener select a desir p, click the C is displayed nimum, maxi ed on the ma d will be dis ic Result elect a comp lt in a NMG select a comp group in the k Save. lected locatio GURE 3-19 c Results ult can be com d same recep metric and tric results w he ribbon, cl e selected me sult is displa and click the ating GIS lay ed sonic boom ontour button . mum and inc p and in the L played on the leted boom m F file. To exp leted sonic b ribbon, click n. Linear met ombiner. bined with tor set. To en same recept ith the sam ick the Com tric results in yed in the Me Receptor Se ers. To view metric resu . rement value ayers manag map. etric result. ort a boom m oom metric r the Export b ric results an AEDT stu able the Com or set. The t e sonic boom bine button t the Scalar f tric Results p t button to vi sonic boom c lt that has be s; or enter ne er. This button etric result: esult. utton. dy metric res bine button, wo metrics c metric and o open the L ields. ane. ew the recept ontour layer en processed w settings. allows the u 3-20 ult as select an be same inear or set s: . ser to
 3.2.3 F T commerci with AED input and selections combine w The full i also descr PCBoom The minimal m PCBoomâ platform organizes database integrated componen The 1. C 2. A 3. A 4. C 5. C 6. C 7. C 8. D 9. R 10. E * Ste Full Integ STEP 1: Follo database s 1. O 2. C C 3. E 4. C The M been creat ull Integratio he full integr al space oper T, software modeling fe and pass th ith any non ntegration pl ibes the fun does not curr design of A odifications s database w that will allo different air can be assig into the exis ts. major steps in reate a new s dd and view dd spacecraft reate spacecr reate an annu reate a grid r reate a recept efine metric un metric res xport sonic b p that requir ration Dem Create a New w the step b erver. pen the AED lick on the reate New St dit the Set stu lick New to c etric Result ed. n Demonstra ation plan w ations within and user inte atures. AEDT e files to PC -sonic boom an describes ctionality fo ently generat EDTâs user . As describe as develope w a smooth craft types (c ned a new ting AEDT f this demons tudy a spaceport launch traje aft launch op alization eceptor or set results ults oom metric r es PCBoom s onstration In Study elow to crea T application Study tab th udy dialog. dy name and reate the stud s tab will ope tion as developed the AEDT a rface modific will genera Boom. AED metric result how to impo r importing r e regular nois interface wil d in the son d to mainta integration ommercial, aircraft type leet database tration are as ctory layout e eration* esults pecific modif structions: te a new stu . en click New Set study des y. n when the n to provide A pplication. T ations must te the requir T will then s to evaluate rt PCBoomâ egular noise e grids. l accommod ic boom mod in a level o of the two military, and designation . AEDT mus follows: lement* ications. dy on the lo to display cription field ew study has EDT users o achieve a se be made to a ed PCBoom retrieve the the total me s irregular no grids as rec ate a majori el database f consistency models in th helicopters) (i.e. spacecr t also add sp cal the s. FIGU with the cap amless integ ccommodate input files b PCBoom gr tric result de ise grids as eptor grids ty of the PC fields docum across the e future. As in separate aft) so that acecraft spec RE 3-20 Cr dialog ability to ev ration of PCB PCBoom sp ased on the u id file outpu fined by the receptor poin (or sets) alth Boom input ent [Wyle, 2 AEDT mod AEDT cur tables, PCBo its tables ca ific airport l eate new stu . 3-21 aluate oom ecific serâs t and user. ts; it ough with 015], eling rently omâs n be ayout dy
STEP 2: Follo 1. C 2. In 3. In 4. A 5. T 6. C 7. S 8. In The Airport/Sp Note defined in Sonic ï· ï· ï· Add and Vie w the steps b lick on the A the Actions the Add Exis confirmation he spaceport lick on the (+ elect the spac the Airport/ spaceport la aceport Lay , If the spac AEDT user Boom Model Update Airp Provide gui A rocket pa be used for description w a Spacepo elow to add irports/Space ribbon group ting Airport/ message is d is added to th ) icon next to eportâs Defau Spaceport La yout is disp ers category o eport does n manual. integration no ort to Airport/ delines on a de d layout eleme launches/landi of a rocket pad FIGURE 3 rt a new spacep ports tab. , click Add, th Spaceport di isplayed, cli e study and l the spacepo lt Layout. youts ribbon layed on the f the Layers ot currently tes: Spaceport. fault airport c nt could also s ngs from a pad layout eleme -21 Add exi ort to the stud en select Exi alog, select th ck OK. isted in the A rt to expand t group, click map, and manager. exist, follow ode in lieu of a erve the same ; the Rumble nt sting airpor y and view t sting Airport e desired spa irports/Space he spaceport View. the correspo the procedu standard cod function as an AEDT Integr t/spaceport d he spaceport /Spaceport. ceport and c ports pane. layouts list. nding layer re to add a e. airport layout ation Plan con ialog. layout. lick Add. is created i new spacep and should tains a 3-22 n the ort as
STEP 3: AED by PCBoo immediate trajectory Follo 1. C 2. S 3. In E 4. C FIGU Add Spacecr T may gener m from a us ly available, provided by w the steps b lick on the (+ elect the spac the Airport/ dit Spacecraf a. Edit th b. Edit th c. Run th Mach d. Click O lick Save Des RE 3-22 A aft Launch ate the three er selected tr it is suggest vehicle manu elow to creat ) icon next to eport layout. Spaceport L t Trajectory d e Name and e table manu e Compute D number and a K. ign to close t FIGURE 3 dd existing a Trajectory L -dimensional ack and prof ed that AEDT factures. e/import a cu the spacepo In the Airpor ayout Design ialog. Operation Typ ally OR click erivatives Pr ngular rates he Airport/Sp -23 Airport irport/space ayout Elem trajectory d ile pair. How add the cap stom spacecr rt to expand t t/Spaceport L toolbar, clic e and fields Upload to b e-processor t for the traject aceport Lay /Spaceport la port layout ent ata in one-se ever, as stand ability to cre aft trajectory he spaceport ayout ribbon k Add Space . rowse and se o generate re ory. out Design to yout design design panel cond time in ard rocket p ate/import a . layouts list. group, click craft Traject lect a trajecto quired additi olbar. panel. . crements req rofiles may n custom spac Design. ory to displa ry. onal derivativ 3-23 uired ot be ecraft y the es of
Sonic ï· ï· STEP 4: Follo 1. C 2. In 3. In w 4. A 5. C 6. A 7. C Boom Mode Create use the trajecto Expand de processor. Create Spac w the steps b lick on the O the Display the Spacec izard. ssign Operat a. In the b. Edit th c. Click N hoose Equipm a. Select b. Click N ssign Operat a. Select b. Click N hoose Trajec a. Select highlig l integration r interface fo ry from an E sign tool to FIGURE ecraft Launc elow to creat perations tab ribbon group raft Actions ion Type and Operation typ e Operation ext. ent: the desired sp ext. ion Time: the Assign op ext. tory: Launch Traj hted on the m notes: r Add Spacec xcel or csv fi include Com 3-24 Edit h Operation e a spacecraf . , click Space ribbon group Spaceport La e drop-down count field an acecraft from eration time ectory from ap. Zoom in raft Trajecto le. pute Deriva spacecraft tr t launch oper craft. , click New yout: menu, selec d select a sp the equipm radio button trajectory l on the map t ry Dialog tha tives elemen ajectory dia ation. to open the t Launch and aceport layou ent table. and edit the O ist. (The gro o view the tr t includes th t which run log. Create Spa Reentry. t from the tab peration tim und track o ack location. e option to u s a trajectory cecraft Oper le. e field. f the trajecto ) 3-24 pload pre- ation ry is
8. Su The entries in Sonic Boo ï· A ï· T ï· A se ï· T the follow ï· T th fu ï· A fo m ï· A se fu F b. Click N mmary: a. Review b. Click C new operatio the Operation m Model in dd Spacecraf he Operation EDT will lo lection. rajectories wi ing pertain t he Choose E at has an as nction. dd the optio rm, Simple F odel. EDT will lo lection or pr nction (the P -function). ext. the selectio reate. n is created s pane. FIGU tegration no t button in D type nomenc ad tables as ll be defined o Figure 3-2 quipment scr sociated son n to define a -function, Ca ad tables as ovide entry s CBoom Use ns from the p and listed in RE 3-25 Cr tes: isplay ribbon lature should sociated with using one-se 5 and 3-26 b een should p ic boom sou custom F-f rlson N-wav sociated with creens with r r Guide incl revious steps the Operatio eate spacecr group of the include Lau the spacec cond three-di elow: ermit the use rce or F-fu unction base e F-function the spacec equired inpu udes the inp in the Curre ns pane. Clic aft operation Operations t nch and Reen raft database mensional tr r to select a p nction or to d on either or Hypersoni raft database ts for the sel ut requireme nt Selection a k Get opera . ab. try/Landing. for user eq ajectory data redefined sp define a cu the Original c Blunt Body for user eq ected user de nts for each rea. tions⦠to loa uipment . acecraft stom F- Thomas reentry uipment fined F- type of 3-25 d the
STEP 5: In period to operations convenien period of operations Follo steps. 1. In 2. In 3. A 4. C 5. B Create an An AEDT, an be analyzed , and subse t way to eva interest with will be weig w the steps the Operatio the Annualiz ssign Existin a. Check b. Click N reate Spacecr a. Edit th b. From t c. Click N uild Annualiz a. From operat FIGU nualization annualization , operations t of process luate environ potentially d hted equally below to bu ns tab, Displ ation Action g Operation G the Add new ext. aft Operation e Add new op he Available ext. ation: the Defined ions groups in RE 3-26 Se is a group o included in ing options mental conse ifferent weig , and operatio ild an annual ay ribbon gro s ribbon grou roups: spacecraft op Groups: eration grou operations li operations g to the Root a lect equipm f operations the time pe for the inclu quences that hting of indiv n groups wil ization cons up, click An p, click New eration grou p field and c st, select and roup list, ho nnualization ent (vehicle) that is assoc riod, weight ded operatio represent no idual operati l be created f isting of the nualizations. to open the C p(s) option. lick Add. drag the laun ld the contro . . iated with th ed grouping ns. Annuali ise and emiss on groups. In or demonstra operations c reate Annua ch operation l key and se e following s of the inc zations prov ions over the this exampl tion purpose reated in pre lization wiza to the group lect and dra 3-26 : time luded ide a time e, the s. vious rd. . g the
6. S The FI b. Weigh the we c. Doubl d. Click N et Processing a. Click C new annualiz GURE 3-27 FIGUR ting could be ighting as â1 e-click the Ro ext. Options: reate. ation is listed Create annu E 3-28 Cre applied to th .â ot annualizat in the Opera alization wi ate annualiz e operation ion name and tions pane. zard â creat ation wizard groups at thi edit the nam e spacecraft â build ann s point. For t e. operation gr ualization st his example, oups step. ep. 3-27 leave
[Skip step STEP 6: Rece and emiss Follo 1. C 2. In 3. In 4. C The STEP 7: A rec order to u be first as below to d 1. In Se 2. In en 3. C The STEP 8: This outputs a import me 1. In 2. C 3. C s 6 and 7 if th Create a Gri ptors define t ions are calcu w the steps b lick on the D the Display the Actions a. Edit th b. From t c. Edit th spacin d. Confir desired origin) lick Save to c receptor is cr Create a Rec eptor set is se receptors signed to a r efine a recep the Display ts. the Actions ter the follow a. Edit th b. Leave unchec c. In th select the Ad lick Save to c receptor set is Import Soni feature allow variety of m tric result: the Metric R lick the Impo lick the Brow e grid to be im d Receptor he locations lated. elow to defin efinitions tab ribbon group ribbon group e Name field he Type drop e X count, Y g fields. m that the L spaceport . reate the new eated and list eptor Set a collection in a metric eceptor set. tor set. ribbon group ribbon group ing data: e Receptor se the Dynami ked. e Available the sonic boo d Arrow. reate the new created and c Boom Metr s users to i etrics. The A esults tab, lo rt button to o se button and ported is not where sonic b e a grid rece . , click Recep , click New. . -down menu count, X sp ocation Info location (i receptor. ed in the Def of receptors result, they m Follow the s , click Recep , click New t name field c grid check receptors m grid and c receptor set is listed in th ic Result mport the so -weighted S cate the Metr pen the Impo select a PCB rectangular.] oom, noise ptor. tors. , select Grid. acing, and represents th .e. spacepor initions pane . In ust teps tor and . box list, lick . e Definitions nic boom re EL (SEL) m ic Result Act rt Metric Re oom SEL G Y e t . pane. sults contain etric is used ions group in sult dialog. rid (*.grd) fi FIGU FIGURE ed in a NM as an examp the ribbon. le. RE 3-29 Re 3-30 Recept GF file. PCB le in this ste ceptor detai or set detail 3-28 oom p. To ls. s.
4. S 5. E m im 6. C 7. W R 8. S re STEP 9: Follo 1. L 2. C Whe display a STEP 10: To e export the 1. In elect SEL as t nter the exis essage is dis port process lick OK to im hen the impo esults pane. T elect the imp ceptor set lay Run Metric w the instruc ocate the Met lick Run All t n the metric green check i Export Son nable the Exp selected son the Metric R he target son ting recepto played about . port the grid rt process is he new recep orted new so er on the ma FI Results tions below t ric Result Ac o run all met results have con. ic Boom Me ort button, s ic boom metr esults pane, ic boom metr r set name t the existing file. complete, th tor set is dis nic boom me p. GURE 3-31 o run the me tions ribbon ric results de finished run tric Result elect a compl ic result in a select a comp ic from the li o override t receptor set n e new sonic b played in the tric result an Import met tric results de group. finitions. ning, the Sta eted sonic bo NMGF file. T leted sonic b st. he existing ame, click N oom metric Definitions t d click the R ric result. finitions. te column in om metric re o export the oom metric r receptor set. o to overrid result is displ ab, Receptor eceptor Set the Metric sult. This bu sonic boom esult. When a wa e and continu ayed in the M Sets view. button to vie Results pane tton allows u metric result 3-29 rning e the etric w the will ser to :
3-30 2. In the Metric Result Actions group in the ribbon, click the Export button. 3. Enter the file name and click Save. 4. A grid file is saved to the selected location. PCBoom results can be combined with RUMBLE or AEDT results as long as they include the same noise metric and same receptor set. Sonic Boom Model integration notes: ï· PCBoom metrics include: maximum overpressure (psf), peak level (dB), loudness (PLdB), A- weighted SEL, C-weighted SEL, and Flat-weighted SEL. ï· Of these PCBoom metrics, AEDT currently imports only A-weighted SEL and C-weighted SEL; add functionality to AEDT to enable import of all PCBoom metrics.