` TOTAL AIRSPACE AND AIRPORT MODELLER (TAAM) PRODUCT PROFILE Cpyright 2015 Jeppesen. All Rights Reserved.
TAAM PRODUCT PROFILE Jeppesen s TAAM - Ttal Airspace and Airprt Mdeller - is Jeppesen s fast-time gate-tgate simulatr f airprt and airspace peratins. This sphisticated sftware tl simulates 4D (3D plus time) mdels f airspace and airprts t facilitate decisin supprt, planning and analysis. With TAAM an analyst can develp mdels f airprts and/r airspace, and then evaluate the impact f changes t infrastructure, peratins, r schedules. TAAM enables the peratr t identify the system benefits f such changes as building a new taxiway, re-architecting sectrs, mdifying airways, changing runway cnfiguratins, r determining when saturatin will be reached, amng many thers. Recgnised as a standard in the aviatin industry, TAAM is widely used by majr air navigatin service prviders, air carriers, leading airprts, aviatin research establishments, system integratrs and universities arund the glbe. TAAM recrds detailed simulatin metrics, and results are presented t enable easy analysis and cmparisn s decisin makers can determine the best pssible slutin befre an investment has been made. TAAM uses high-detail 3D graphics t ensure that stakehlder engagement is easy. Business Benefits Revenue can be increased due t: Imprved perfrmance and utilisatin f ATC systems Increased prductivity f existing resurces Increased capacity as a result f better management f existing and future traffic vlumes Operating csts can be substantially decreased due t: Reductin f grund and airbrne delays Reductin in perating and fuel csts Better management f existing infrastructure and resurces Optimisatin f future investments in infrastructure thrugh better planning and timing Reductin in wrklad thrugh imprved lad balancing TAAM Prduct Prfile Cpyright 2016 Jeppesen. All Rights Reserved. 2
Principal Features Unmatched fast-time and accurate real wrld simulatin capabilities Cnfigurable t any airprt r airspace anywhere in the wrld Unlimited what-if scenari capabilities 3D multi-clur mdels f airprts and aircraft 4D full airspace & flight prfile calculatins Access t Jeppesen s wrldwide aviatin database fr rapid prject setup Detailed Grund functinality, including: Stands (Gates, Deice Statins, Lng Term Parking Psitins, Standffs) Terminals Pushback Paths Taxiways Runways Aprns Twing & Maintenance Operatins Detailed Airside functinality, including: Terminal Airspace En-rute and Oceanic Airspace Cnflict Detectin with separatin requirements cnfigurable by aircraft equppage Flight Level Allcatin System (CVSM / RVSM) Flw Management In-trail separatin Wind (terminal and enrute) SIDs/STARs Mixed IFR/VFR traffic, including circuit training and tuch & g airprt peratins A flexible rule base t accmmdate different mdelling requirements In-applicatin help t allw intuitive rule creatin Randmisatin f mdel parameters fr increased realism Electrnic input using industry standard data fr rapid simulatin mdel set-up Statistical data generated in a wide variety f reprt frms at different levels f detail, including supprt fr custmized database queries and reprts Direct utput t spreadsheet and database tls fr further in-depth analysis Output t industry-standard nise and emissins mdelling tls TAAM Cntrl Gateway a flexible API allwing simulatin cntrl frm 3 rd -party applicatins TAAM Prduct Prfile Cpyright 2016 Jeppesen. All Rights Reserved. 3
TAAM Applied See a brief summary f the features TAAM can ffer t benefit yur peratins: CAAs and Air Services Prviders: Analyse the impacts f glbal grwth in air traffic Increase traffic flw and airspace utilizatin, while maintaining safety Analyse capacity fr natinal rute systems with current and future traffic levels Re-design, resectrisatin and reclassificatin f airspace Measure benefits f reduced vertical separatin minima Evaluate the implicatins f intrducing new enrute and terminal prcedures Assess the impact f changes in cntrller wrklad due t traffic grwth, new airspace designs and prcedures Assess ceanic separatin prcedures Imprve cperatin between civil and military air services Manage the impact f adverse weather cnditins Study new CNS/ATM technlgies Airprt Operatrs: Reduce the csts f cngestin and delays, while maintaining safety Capitalise n the better use f existing airprt infrastructure and resurces. Increased capacity means greater revenues frm landing fees. Plan fr the intrductin f new large aircraft Evaluate the financial implicatins f future infrastructure investments including new terminals, additinal gates, taxiways r runways Imprve irregular peratins Measure the impact f disruptins, such as prpsed runway wrks, n yur schedule and peratins Assess the effect f changes in sequencing strategies and separatin standards Plan nise abatement, de-icing and ther peratins in the mst cst-effective way Airlines: Plan peratins, fleet changes, aircraft substitutins, de-icing and ther prcedures in the mst cst-effective way Enhance cmpetitiveness and prfitability thrugh reduced fuel use, shrter delays, and efficient blck times. Optimise schedule design frm early stages t nging adjustments Manage the intrductin f reginal jets and ther fleet mix changes Evaluate past days perfrmance, train peratins staff t handle disruptins mre efficiently Analyse the initiatives f the natinal r lcal air services prviders and their impact n yur peratin Prpse initiatives t air services prviders t reduce delays and increase efficiency TAAM Prduct Prfile Cpyright 2016 Jeppesen. All Rights Reserved. 4
Hw TAAM Wrks TAAM simulatin relies upn cmparing a knwn and existing system in rder t analyse the impact f the prpsed change(s). Once the need fr the prject has been identified and the scpe defined, data is entered t create a baseline that reflects the current peratins. Alternatives are then created within the simulatin, using the baseline as a starting template and cmparative tl. TAAM s flexibility enables the user t mve easily between simulatins, and return t earlier simulatins run. The simulatin is run in fast-time n a desktp r laptp cmputer. The user can bserve the traffic mvements n the screen, interact with the mdel, vary the utcmes and arrive at best-pssible slutins. Simulatin run time depends upn the available cmputer hardware and the cmplexity f the mdel. Figure 1 - The TAAM Graphical User Interface The entire prcess frm data input right thrugh t the final analysis can all be dne within the TAAM package. TAAM is cmprised f the TAAM Integrated Envirnment (TIE), the TAAM Simulatin Engine, and the Pst-Prcessing Suite (fr analysis f TAAM utput). TAAM Prduct Prfile Cpyright 2016 Jeppesen. All Rights Reserved. 5
TAAM Integrated Envirnment TIE Created as the primary interface windw fr TAAM, the TAAM Integrated envirnment prvides a single lcatin fr data management, simulatin setup, mdel building, and launch f analysis and playback utilities. Data such as flight schedules, waypints & airprt lcatin crdinates, and airfield & sectr maps are managed by TIE. Mdel setup files are accessible via a data tree structure in the Study Explrer windw, while editing and cnfiguratin may be dne in the wrk area. Files may be easily manipulated and inserted int simulatin scenaris by means f navigating the data tree and perfrming simple right-click actins, including cpying, deleting, and lading/unlading files. File editing is easily accmplished within the wrk area, which includes individual tabbed windws which may be dcked in a user-cnfigurable manner r pulled ut f the TIE applicatin t take full advantage f multiple mnitr envirnments. Figure 2 The TAAM Integrated Envirnment TAAM Prduct Prfile Cpyright 2016 Jeppesen. All Rights Reserved. 6
Figure 3 (Abve) The TIE windw, including tabbed file brwsing and multiple dcked windws Figure 4 (Left) Lading and unlading files may be accmplished thrugh simple right-click interactin TAAM Simulatin Engine At the cre f TAAM is the Simulatin Engine (SIM), a sftware representatin f air traffic behaviur. SIM cmbines hardcded behaviur such as aircraft trajectry building, alng with user cnfigurable behaviur such as taxi paths. Cntrl f the cmprehensive SIM mdel is achieved thrugh three generalised means: Static files: Included in TAAM are static files cntaining ATC system data tables such as wake turbulence separatin standards and aircraft perfrmance tables. Jeppesen supplies examples f these s users can quickly establish their initial mdels then mdify the cntents f these files t suit their lcal mdelling needs. Fr example, users can reduce the wake turbulence separatin requirements t reflect a change in standards, r increase aircraft perfrmance attributes t reflect peratr preference. Parameter settings: Many bjects in the simulatin have a number f cntrl parameters. The rle f these parameters range frm setting ATC requirements such as in-trail requirements ver fixes, t methds fr emulating ATC prcedures such as clsing taxiways in ne directin t generate racetrack taxiing patterns. Setting parameters n individual items is as simple as clicking n the item and mdifying its characteristics in the resultant dialg windw. Rules: While the static files and parameters are defined at simulatin start-up and remain unchanged, the rule base prvides cntext sensitive cntrl f the simulatin behaviur. The TAAM user can emulate cmplex peratinal behaviur, such as lad switching between runways depending n traffic demand. The TAAM interface prvides a defined graphical framewrk allwing users t create cnditinal rule behavir. TAAM Prduct Prfile Cpyright 2016 Jeppesen. All Rights Reserved. 7
This apprach enables users withut prgramming skills t develp TAAM mdels, withut limiting thse users needing t develp highly cmplex scenaris. Figure 5 The TAAM Rulebase Dialg The simulatin mdel als includes: At an airprt level Rulebases fr Runway, Taxiway, Gate/Aprn, SID/STAR, Departure/Arrival Separatin, Pushback, Cnsequential Delay, and LAHSO. Users may set twing, weather, deicing, taxiing, remte parking, grund metering, and many ther parameters Maintenance activity may be simulated n specified airframes at specified times In the airspace Glbal aircraft separatin and glbal rules may be applied Specific areas f airspace may be set up t perate in distinctly different ways, utilizing features such as Flw Management fr the simulatin f en rute cngestin r FLAS t allcate different flight levels available in unique sectrs. These features may als be used t set up traffic metering in line with established r ptential letters f agreement. Separatin parameters may be set, allwing the user t cllect cnflicts based upn the vlume f airspace and specific aircraft equipage TAAM Prduct Prfile Cpyright 2016 Jeppesen. All Rights Reserved. 8
Figure 6 TAAM Aircraft fllwing a real-wrld STAR Reading simulatin data set up in TIE, SIM is used t debug simulatins and set up additinal parameters in rder t generate iteratins fr statistical analysis. Thrugh the graphic user interface the user can specify all the simulatin run settings and cntrls, including: The fidelity and simulatin run-time, by selecting the time step and speed. Cmplete simulatin cntrl start/stp/restart/snapshts. Display rulebase t custmise the graphical presentatin f the simulatin (display r exclude aircraft based upn certain characteristics, change aircraft clur, etc.) Rulebases fr airprt and airspace specific behaviurs Pst-Prcessing Suite TAAM Reprter Used t extract data frm the simulatin, the TAAM Reprter prvides pwerful analysis and reprting functinality thrugh a mysql database. TAAM reprter prvides a wide range f predefined reprts, graphs, and queries t fast-track the user s analysis. TAAM Reprter als prvides users the flexibility t add their wn custmised reprts, assisted by a query wizard. Reprts can be utput t paper, images fr inclusin in dcuments, r frmatted data fr third-party sftware such as Micrsft Excel. TAAM Prduct Prfile Cpyright 2016 Jeppesen. All Rights Reserved. 9
Figure 7 TAAM Reprter TAAM Viewer Free flwing 3D playback f the simulatin data is prvided by this high perfrmance, OpenGL visualisatin tl. The viewer runs at up t 1000 times faster than real-time, using cmpelling 3D graphics. It can lad texture maps r images such as aerial phtgraphs and draw metrics generated by the TAAM Reprter such as taxiway delay r runway ccupancy times. The TAAM Viewer prvides a cmpelling visualisatin methd especially when presenting t peple withut ATC dmain knwledge. TAAM Prduct Prfile Figure 8 TAAM Viewer using 3D terrain and graphical usage reprting Cpyright 2016 Jeppesen. All Rights Reserved. 10
The TAAM viewer als allws fr demnstratin f the mdel t stakehlders withut a TAAM license. By utilizing the TAAM Viewer Lite, users may create a distributable recrding f the simulatin that may be played back n any suitably equipped cmputer just as in the full versin f the viewer, including the ability t manipulate 3D viewing angles and magnificatin. Viewer Lite packages may be sent via file transfer r strage media t any interested parties. Simulatins may als be recrd as AVI (Audi-Vide Interleave) files, a Micrsft vide frmat, which can be sent as an attachment t emails r included in presentatins. These ptins prvide a pwerful way fr enabling stakehlders t view simulatins fr validatin r acceptance. Gate-t-Gate Simulatin TAAM is a gate-t-gate simulatin tl, allwing fr simulatin at multiple levels f detail. As a gate-t-gate tl, TAAM may be used t shw aircraft departing frm an airprt (including pushback, taxi, takeff rll and SID), transiting airspace (utilizing apprpriate climb rates, flight levels, speeds, and separatin criteria), and landing at a destinatin airprt (including STAR, landing, taxi, and arrival at gate). Utilizing flight linking and TAAM tail ruting, the same airframe may be shwn t mve frm airprt t airprt thrughut an entire airspace system. Fr users interested in mre lcalized studies, any prtin f the abve mentined stages f flight may be simulated as an individual prject based upn user setup. Individual airprts may als be mdelled as cmplete entities with taxiing and gate usage, as runways nly, r as simple pint lcatins t riginate r terminate aircraft. Figure 9 TAAM screen shts depicting aircraft at varius stages Tp left aircraft taxiing and awaiting takeff clearance. Tp Right Aircraft in the enrute phase Bttm Left Aircraft landing TAAM Prduct Prfile Cpyright 2016 Jeppesen. All Rights Reserved. 11
Rapid Prject Setup with Jeppesen s Cmprehensive Wrldwide Aviatin Database When creating a simulatin, ne f the mst difficult tasks is cllectin f data. TAAM prvides the user with everything needed t set up a simulatin envirnment suitable fr prcessing aircraft. Jeppesen is in a unique psitin as the distributr f ne f the mst cmprehensive aviatin databases in the wrld. Within the TAAM prduct, users are given access t the mst recent cmpilatin f aviatin data available frm the Jeppesen database, allwing fr rapid prject setup. With just a few clicks, users can create a cmplete envirnment by imprting airprt lcatins, runway layuts, airspace bundaries, navaids, SIDs, STARs, and airways. Figure 10 Imprt infrmatin frm Jeppesen s Wrldwide Database TAAM Prduct Prfile Cpyright 2016 Jeppesen. All Rights Reserved. 12
Jeppesen s Cmmitment t TAAM and Our Custmers TAAM is a mature simulatin tl with its rigins and riginal release in 1992. The sftware has been cntinuusly upgraded and enhanced n a regular basis ever since its inceptin. Jeppesen maintains a full-time, ISO-certified sftware develpment team respnsible nly fr the maintenance, enhancement, and upgrade f the TAAM prduct. New TAAM releases ccur n a quarterly basis each year. Subscribers t ur annual sftware rental licensing prgramme have access t each new release, as well as TAAM sftware supprt persnnel. Custmer Testimnials "TAAM is the nly tl that allws us t examine the verall system impact hlistically; frm gate, t surface thrugh terminal and en rute airspace when evaluating new technlgies." Michael Yablnski, ATC Simulatin and Mdeling Manager, Nblis Inc. NAV CANADA uses TAAM extensively fr ur business case analyses and as a decisin supprt tl when assessing ptins in cllabratin with ur custmers. It is an excellent tl t evaluate the direct impact f changes t many aspects f ur business. Rudy Kellar, Executive Vice President, Service Delivery, NAV CANADA "Our Experience with TAAM has been amazing. We have been able t cllabrate with ur authrities in high-impact prjects and influence their decisins with high-level technical data. Parallel t that, at an internal level inside the airline, we have been able t make ur planning department take int cnsideratin peratinal cncerns fr the first time. TAAM has helped us t identify ptential cst savings ttaling several millin dllars." Cesar Oglivie, Operatinal Efficiency Manager, Cpa Airlines Fr mre infrmatin n TAAM r t arrange a prduct demnstratin, please cntact sales.gma@jeppesen.cm TAAM Prduct Prfile Cpyright 2016 Jeppesen. All Rights Reserved. 13
TAAM Hardware Requirements Minimum Requirement Recmmended Operating System Windws 7 64 Bit Windws 10 64 Bit Prcessr Intel Cre 2 Du 6600 Fastest x86 prcessr available Memry (RAM) 3 GB 12 GB Hard Disk 80 GB 500 GB Graphics Card ATI Raden X1300PRO, r equivalent Nvidia GeFrce GTX 680MX (Ntebk) Nvidia GeFrce GTX 690 (Desktp) Or equivalent graphics cards Screen Reslutin 1280 x 1024 1920 x 1080 TAAM Prduct Prfile Cpyright 2016 Jeppesen. All Rights Reserved. 14