Showing posts with label RTK. Show all posts
Showing posts with label RTK. Show all posts

Tuesday, February 23, 2016

Innovyze Further Expands RDII Analyst Functionality, Setting New Standard for Sanitary and Combined Sewer System Model Calibration

Innovyze Further Expands RDII Analyst Functionality, Setting New Standard for Sanitary and Combined Sewer System Model Calibration

New Features Allow Unprecedented Analysis and Comparison of Rainfall-Derived Inflow and Infiltration Data, Parameters for Complex Sewers

Broomfield, Colorado, USA, February 23, 2016

Innovyze, a leading global innovator of business analytics software and technologies for smart wet infrastructure, today announced the newest release of its RDII Analyst (Rainfall-Derived Inflow and Infiltration) for InfoSWMM and H2OMAP SWMM. The new version delivers expanded functionality, incorporating many advanced Genetic Algorithm (GA) optimization features. It increases its unmatched productivity by openly inviting the users to further adjust the dry weather flow (DWF) and RTK parameters (with initial and maximum monthly storages for continuous simulation) to achieve a better fit and ultimately a better model based on their experiences. The release confirms Innovyze’s commitment to giving the world the most complete toolset for modeling current sanitary and combined sewer collection systems.

Excessive wet weather flow from rainfall-derived manhole and pipe defect inflow and infiltration is a major source of sanitary and combined sewer overflows. Controlling these overflows is vital in reducing risks to public health and protecting the environment from water pollution. Computer modeling plays an important role in determining sound and economical remedial solutions that reduce RDII; improve system integrity, reliability and performance; and avoid overflows.

The processes for converting rainfall to RDII flow in sanitary sewer systems are very complicated. In addition to rainfall and antecedent moisture conditions, factors controlling RDII responses include depth to groundwater, depth to bedrock, land slope, number and size of sewer system defects, type of storm drainage system, soil characteristics, and type of sewer backfill. Given this degree of complexity, flow-monitoring data must be combined with mathematical modeling and analytics to provide accurate results. The wastewater flow monitoring data obtained by sewer collection systems consists of dry-weather flow components, ground water flow and twelve (12) RDII flow components. A crucial step in successfully modeling sewer collection systems is the ability to decompose flow-monitoring data into RDII flow, ground water flow and dry weather flow and its flow pattern.

Significantly superior to the EPA Sanitary Sewer Overflow Analysis and Planning (SSOAP) program and powered by advanced GA optimization and comprehensive data analytics and scenario management, RDII Analyst provides the ability to quickly and reliably perform these types of advanced flow decomposition data monitoring. It has been updated with tabular comparisons between the observed and calibrated RDII data for each event, including R value, peak flow, hydrograph volume and depth. This allows the user to better evaluate simulated and monitored data and judge how well it correlates on a per event basis. The user can also directly edit estimated DWF mean values to apply site specific knowledge to the RDII Analyst DWF extraction algorithm. These altered DWF values can then be used to estimate the wet weather flow component of the monitored flow, using a combination of the DWF extraction algorithm and site-specific knowledge. The new version also allows direct edits to the twelve RTK and storage parameters plus manual curve fitting to apply site specific knowledge to the genetic algorithm parameter estimation. Manual curve fitting is valuable in timing differences between monitored and calibrated wet weather flow components and employing previous experience in estimating RTK parameters.

“Innovyze continues to listen to our customers, invest very heavily in R&D, and deliver the advanced tools they need to effectively support their wastewater and urban drainage modeling and management challenges,” said Paul F. Boulos, Ph.D., BCEEM, Hon.D.WRE, Dist.D.NE, Dist.M.ASCE, NAE, President, COO and Chief Technical Officer of Innovyze. “We are very excited that our vast worldwide customer base will now be able to use the powerful new features in RDII Analyst to enhance their modeling experiences, wrap better projects faster, and strengthen our communities’ sewer systems.”

Pricing and Availability
Upgrade to RDII Analyst is now available worldwide by subscription to the Executive program. Subscription members can immediately download the new version free of charge directly from www.innovyze.com. The Innovyze Subscription Program is a friendly customer support and software maintenance program that ensures the longevity and usefulness of Innovyze products. It gives subscribers instant access to new functionality as it is developed, along with automatic software updates and upgrades. For the latest information on the Innovyze Subscription Program, visit www.innovyze.com or contact your local Innovyze Channel Partner.
About InnovyzeInnovyze is a leading global provider of wet infrastructure business analytics software solutions designed to meet the technological needs of water/wastewater utilities, government agencies, and engineering organizations worldwide. Its clients include the majority of the largest UK, Australasian, East Asian and North American cities, foremost utilities on all five continents, and ENR top-rated design firms. With unparalleled expertise and offices in North America, Europe and Asia Pacific, the Innovyze connected portfolio of best-in-class product lines empowers thousands of engineers to competitively plan, manage, design, protect, operate and sustain highly efficient and reliable infrastructure systems, and provides an enduring platform for customer success. For more information, call Innovyze at +1 626-568-6868, or visit www.innovyze.com.
Innovyze Contact:Rajan RayDirector of Marketing and Client Service Manager
Rajan.Ray@innovyze.com
+1 626-568-6868
- See more at: http://www.innovyze.com/news/1664/#sthash.VMYZZnmf.dpuf

Friday, September 4, 2015

학생 실습 경험을주는 목표로 업계 최고의 InfoWater과 InfoSWMM 무료 학생 에디션, 더 나은 업계 준비 인력을 준비하고 미래를 형성

학생 실습 경험을주는 목표로 업계 최고의 InfoWater과 InfoSWMM 무료 학생 에디션, 더 나은 업계 준비 인력을 준비하고 미래를 형성

Innovyze 호텔은 무료 수상 대학 전 세계에 GIS 중심의 물 모델링 소프트웨어

학생 실습 경험을주는 목표로 업계 최고의 InfoWater과 InfoSWMM 무료 학생 에디션, 더 나은 업계 준비 인력을 준비하고 미래를 형성

브룸 필드, 콜로라도, 미국, 2015년 8월 4일

지속적으로 수자원 공학 교육의 기준을 높이고 학습의 세계를 확대 약속을 이행, Innovyze, 비즈니스 분석 소프트웨어 및 스마트 젖은 인프라 기술의 선도적 인 글로벌 혁신는 오늘 업계 최고의 GIS 중심의 물을 발표했다 전 세계 고등 교육 기관에서 학생 및 교수에 폐수 모델링 소프트웨어 무료. 모두의이 특별한 학생 판  InfoWater 및  InfoSWMM 육십 링크에 한한다는, 자신의 교실과 실험실에서 고급, 고성능 물 모델링 소프트웨어를 사용하는 간단하고 유연한 방법으로 전 세계적으로 대학을 제공하도록 설계되었습니다. 그것은 학생들이 배우고 그들을 고용 시장에서 눈에 띄는 데 도움이됩니다 중요한 설계, 계획, 운영의 기술과 지속 가능한 물 분배 및 폐수 / 우수 수집 시스템의 관리를 개발하는 데 도움이됩니다.
Innovyze는 토목 공학의 학생들이 학업과 전문 엔지니어링 경력을 위해 준비 할 필요가 있음을 잘 알고 있습니다. 학생과 전문가, 실무 경험을 대신 할 존재하지 않는다. 이 알고, 점점 더 많은 대학은 학생들이 교실마다 그들은 그것을 필요로 어디에서 사용되는 최신 상태 및 실제적인 도구에 액세스 할 수 있도록한다. Innovyze 기술을 주위에 자신의 학부 및 대학원 과정을 맞춤으로써, 공학 교수진은 자신의 학생들이 교실에서뿐만 아니라 succeed- 할 필요가 스마트 수자원 모델링 기술의 강력한 도구 및 최신 기술에 직접 액세스 할 수 있도록하고 있습니다 보장 할 수 있지만, 궁극적으로 전문 엔지니어있다.
"Innovyze  InfoWater  과  InfoSWMM  소프트웨어가 세계 최대의 물과 폐수 유틸리티와 탑 엔지니어링 회사의 많은 표준이있다 "스콧 요스트 박사, 체육, 켄터키 대학에서 토목 공학 부교수는 말했다. "나는이 소프트웨어는 최고의 공과 대학에서 사용되는 것을 볼 수 있습니다. 학생 분석 및 설계 통합 문서는  또한 우수하다. 이 미션 크리티컬 기술 훈련 및 교육을 갖는 것은 고용주에 대한 학생들의 전문성을 검증뿐만 아니라 보람있는 직업을 위해 그들을 준비에 큰 자산입니다. "
는 ArcGIS ESRI (, 레드 랜드, 캘리포니아) 꼭대기에 지어진  InfoWater 업계에서 반환의 가장 높은 속도를 제공하는 -의 혁신적인 네트워크 모델링 기술은 유틸리티 인프라 관리 및 보호의 모든 측면을 해결합니다. 이 소프트웨어는 완벽하게 강력한는 ArcGIS 설정에서 직접 정교한 예측 분석, 시스템 역학 및 최적화 기능을 통합합니다. 압력 구역 관리 및 첨단 유전자 알고리즘과 입자 떼 최적화 화재 흐름과 동적 수질 시뮬레이션, 밸브 중요도 및 에너지 비용 분석에서, 스위트는 모든 물 유틸리티 소유자 사업자가 장착되어 가장 계획, 설계, 운영 할 필요가 안전하고 그 배포 시스템 서스테인.
InfoWater는  또한 고급 스마트 네트워크 모델링, 동작, 자본 계획 및 자산 관리 확장을위한 기본 플랫폼 역할을한다. 이러한 중요한 응용 프로그램 중에는  IWLive  (실시간 운영 및 보안)  InfoWater UDF  (단방향 플러싱) CapPlan  (리스크 기반 자본 계획)  InfoMaster  및  InfoMaster 모바일  (자산 무결성 관리 및 상태 평가)  InfoWater MSX  (다중 종 모델링)  InfoWater BTX  (이벤트 / 입자 되돌아)  InfoSurge  (서지 / 과도 해석),  지속 가능성  (탄소 발자국 계산)  BalanceNet  (실시간 에너지 관리 및 운영 최적화)  PressureWatch  (실시간 네트워크 유압 무결성 모니터링)  QualWatch  (실시간 네트워크 수질 무결성 모니터링)  SCADAWatch  (실시간 비즈니스 인텔리전스 및 성능 모니터링)  DemandWatch  (물 수요 예측) 및  DemandAnalyst  (실시간 물 수요와 낮의 패턴 추정).
전체는 ArcGIS 중심 도시 배수 모델링 솔루션으로서, 전 기능  InfoSWMM의  분석 및 설계 프로그램은 업계에서 복귀 최고 속도를 제공한다. 수질 평가, 오염 예측, 퇴적물 수송 및 증착, 도시 홍수, 실시간 제어 및 기록 유지 등의 관리 기능에 대한 분석 및 설계에서 - - 전형적인 하수 시스템의 모든 작업은 하나의 완벽하게 통합 된 지구 공학에서 해결 환경. 이 프로그램의 강력한 유압 및 수질 계산 엔진은 USEPA에 의해 승인 및 FEMA에 의해 인증 된 최신 SWMM 5.1.010의 향상된 버전을 기반으로합니다. 생산성 향상, 비용 절감, 높은 정확도, 더 나은 효율성 및 개선 된 디자인 번역 장점 - 이러한 기능과 더 향상된 모델링 경험과 표시 결과의 더 현실감을 제공합니다.
InfoSWMM는  또한 고급 모델링, 운영 문제, 단기, 장거리 및 자본 계획, 도시 우수 처리 및 분석, 분석 중심의 자산 관리 확장을위한 강력한 플랫폼 역할을한다. 이러한 중요한 응용 프로그램의 일부는 다음과 같습니다 InfoSWMM 2D  (이차원 표면 홍수 모델링),  CapPlan  (리스크 기반 자본 계획 및 자산 성능 모델링), InfoSWMM는 서스테인  (최적의 선택과 뚜껑의 배치 / BMPs에)를  InfoSWMM SFEM  (동적 하수 흐름 추정을 모델),  InfoMaster (GIS 중심의 분석 중심의 자산 관리) 및  RDII 분석 (강우에 의존 유입과 침투 계획 및 분석).
포괄적 인  학생 설계 및 분석 워크 북은  각 프로그램에 포함되어 있습니다. 배경 이론에 더하여, 통합 문서 단계별 물 및 폐수 네트워크 모델 구축, 시뮬레이션 및 분석 접근법 제공하며, 학습의 실질적인 특성을 강화하기 위해 엄선 된 사례의 다양한 예시된다. 실제 네트워크 모델링 상황을 표현함으로써, 통합 문서는 학생들이 공학 연습의 일상적인 문제 해결 작업을 숙지하기에 이상적이다.
"Innovyze는 엔지니어링 커뮤니티에 걸쳐 모두 교육과 연구의 기술적 성취와 기술 발전을 촉진하기 위해 최선을 다하고있다"폴 F. Boulos, 박사, BCEEM, Hon.D.WRE, Dist.D.NE, DIST는 말했다 Innovyze의 .M.ASCE, NAE 회장, 운영 책임자 (COO) 겸 최고 기술 책임자. "대학은 엄격한 예산에 직면 한 번에, 우리의 학생 소프트웨어 버전이 기관들은 최첨단 기술을 사용하여 학생들을 가르치고 보람 전문 경력을 위해 그들을 준비하는 데 필요한 도구를 제공합니다. 그것은 환경과 물 자원 공학 분야에 관심이있는 학생들이 매일 주요 물과 폐수 유틸리티와 진보적 인 컨설팅 엔지니어링 회사에서 사용하는 정교한 기술을 훈련 할 수 있습니다. 이것은 그들에게 매우 경쟁 우위를 제공하고 번성하도록하는 데 도움이됩니다. 또한 그들은, 우리의 물 인프라를 유지, 업계의 요구 사항을 충족 우리의 경제를 발전하고, 더 나은 세상을 구축하는 데 필요한 기술과를 준비합니다. "
가격 및 구입
특별 학생 판  InfoWater  과  InfoSWMM  자신과 함께  학생 설계 및 분석 통합 문서  에서 Innovyze 웹 사이트에서 무료로 다운로드 할 수 있습니다 http://www.innovyze.com/education/student/ .
Innovyze 정보 Innovyze 전 세계적으로 물 / 폐수 유틸리티, 정부 기관 및 엔지니어링 조직의 기술적 요구를 충족하도록 설계 젖은 인프라 비즈니스 분석 소프트웨어 솔루션을 제공하는 세계적인 선도 기업이다. 고객은 모두 5 개 대륙에서 가장 큰 영국, 호주, 동아시아와 북미의 도시, 일류 유틸리티의 대부분, 그리고 ENR 최상급 디자인 회사를 포함한다. 북미, 유럽 및 아시아 태평양 지역에서 최고의 전문 지식과 사무소, Innovyze는 수천 명의 엔지니어가 경쟁적으로 운영하고 매우 효율적이고 안정적인 인프라 시스템을 유지, 계획, 관리, 디자인을, 보호하기 위해 힘을 실어 최고 수준의 제품 라인의 포트폴리오를 연결 고객의 성공을위한 지속적인 플랫폼을 제공합니다. 자세한 내용은 +1 626-568-6868에서 Innovyze 전화, 또는 방문  www.innovyze.com을 .
Innovyze 연락처 : 라잔 레이 마케팅 이사 및 고객 서비스 관리자
+1 626-568-6868

業內主導InfoWater和InfoSWMM目的是讓學生親身體驗免費的學生版,更好的準備業就緒勞動力和塑造未來

業內主導InfoWater和InfoSWMM目的是讓學生親身體驗免費的學生版,更好的準備業就緒勞動力和塑造未來

Innovyze攻略獲獎地理信息系統為中心的水資源建模軟件來世界各地的大學

業內主導InfoWater和InfoSWMM目的是讓學生親身體驗免費的學生版,更好的準備業就緒勞動力和塑造未來

布魯姆菲爾德,美國科羅拉多州,2015年8月4日

履行的不斷提高酒吧在水資源工程教育和擴大學習世界的承諾,Innovyze,業務分析軟件和技術的智能濕基礎設施的全球領先的創新者,今天宣布其業界領先的地理信息系統為中心的水供應和廢水建模軟件免費向學生和教授在世界各地的高等教育機構。兩者的這種特殊的學生版  InfoWater  和  InfoSWMM,僅限六十環節,旨在向全世界向高校提供了一個簡單,靈活的方式來使用先進的,高性能的水建模軟件,在他們的教室和實驗室。這將幫助學生學習和發展,在設計,規劃,運行重要的技能和可持續配水和廢水/雨水收集系統的管理,這將幫助他們脫穎而出的就業市場。
Innovyze了解到,土木工程的學生必須是學術和專業的工程職業生涯做好準備。對於學生和專業人士的一致好評,也不能代替實踐經驗。知道了這一點,越來越多的大學在幫助學生獲得在課堂上無論何時何地需要他們使用的先進設備,最先進和實用工具。通過調整各地Innovyze技術的本科和研究生課程,工程學院的成員可以放心,他們正在幫助他們的學生可以直接進入功能強大的工具和最先進的智能水資源建模技術,他們需要在課堂上不僅succeed-,但最終為專業工程師。
“Innovyze  InfoWater  和  InfoSWMM  軟件已經成為許多世界上最大的水和污水處理企業和頂級工程公司標準,”斯科特·約斯特博士,PE,土木工程在肯塔基大學的副教授說。“我可以看到這個軟件正在使用的最好的工科學校。該  學生分析和設計工作簿  也是極好的。有培訓和教育在這一關鍵技術是在驗證我們的學生的專業知識,未來的雇主,以及為他們準備一個有價值的職業生涯的一個重要的資產。“
內置之上的ArcGIS(ESRI的,雷德蘭茲 ,CA),InfoWater的創新網絡的建模技術解決公用基礎設施的管理和保護的各個方面-提供的回報在同行業中的最高速度。該軟件直接無縫強大的ArcGIS環境內集成了精密的 ​​預測分析,系統動力學和優化功能。從火流和動態水質模擬,閥門關鍵性和能源成本分析,壓力區的管理和先進的遺傳算法和粒子群算法,該套件配備了所有的水公用事業業主運營商需要最佳的規劃,設計,運營,安全,延續自己的配送系統。
InfoWater  還作為先進的智能網絡建模,操作,資本規劃和資產管理擴展基部平台。在這些關鍵應用程序   IWLive(實時操作和安全); InfoWater  UDF(單向沖洗);  CapPlan(基於風險的資本規劃); InfoMaster  和  InfoMaster移動  (資產完整性管理和狀態評估);  InfoWater MSX(多品種造型);  InfoWater  BTX(活動/顆粒回溯);   InfoSurge(浪湧/瞬態分析); 可持續發展  (碳足跡計算);   BalanceNet(實時能源管理和運營優化);  PressureWatch(實時網水力完整性監控);  QualWatch(網絡實時水質完整性監控);  SCADAWatch(實時商業智能和性能監控);  DemandWatch(需水預測); 和   DemandAnalyst(實時水的需求和晝夜模式估算)。
作為一個完整的ArcGIS為中心的城市排水建模解決方案,功能齊全  InfoSWMM  分析和設計計劃提供的回報在同行業中的最高速度。一個典型的下水道系統的所有業務-從分析,設計到管理功能,如水質評價,污染預測,泥沙輸移和沉積,城市洪水,實時控制和記錄保存-在一個單一的,完全集成的地球工程得到解決環境。該方案的強大的水力和水質計算引擎是基於最新的SWMM 5.1.010,這是由美國環保署認可,並通過聯邦緊急事務管理局認證的增強版本。這些功能多提供增強的模擬體驗,顯示效果更加逼真-優勢轉化為提高工作效率,降低了成本,更高的精度,更高的效率,並改善設計。
InfoSWMM  也可作為一個強大的平台,先進的建模,業務問題,短期的,長期的和資本規劃,城市雨水處理和分析,分析驅動的資產管理擴展。其中的一些關鍵應用包括InfoSWMM  2D(二維表面洪水建模  ),CapPlan(基於風險的資本規劃和資產性能建模),InfoSWMM 延  (選優和蓋的位置/骨形成蛋白 ),InfoSWMM SFEM(動態下水道流估計模型   ),InfoMaster(地理信息系統為中心的分析為主導的資產管理),和 RDII分析員  (降雨依賴的流入和滲透計劃和分析)。
全面的  學生設計與分析工作手冊  還包括為每個程序。除了 ​​背景理論,工作簿提供一步一步的接近供水和污水管網建模,仿真和分析,並說明了各種精心挑選的案例研究,以加強學習的動手性質。由代表現實生活中的網絡建模的情況下,工作簿是理想的學生,在工程實踐中的一天到一天的解決問題的工作熟悉。
“Innovyze致力於促進技術成果和科技進步,無論是在教學和研究,在整個工程界,”保羅•F Boulos,博士,BCEEM,Hon.D.WRE,Dist.D.NE,DIST說.M.ASCE,NAE,總裁,首席運營官兼首席技術官Innovyze的。“在大學時都面臨著緊縮的預算之際,我們的學生軟件版提供了這些機構,他們需要使用先進設備,最先進的技術教給他們的學生和他們準備收穫職業生涯的工具。它可以讓學生誰感興趣的環境和水資源工程領域培養在每天使用的領先的水和污水處理事業和進步的工程諮詢公司的尖端技術。這讓他們無以倫比的競爭優勢,並幫助他們茁壯成長。它也準備他們,他們需要滿足行業需求,維持我們的水利基礎設施,推動我們的經濟,並建立一個更美好的世界的能力“。
價格及供貨情況
特殊學生版  InfoWater  和  InfoSWMM  連同他們的  學生設計與分析工作簿  是免費提供給從Innovyze網站中下載的  http://www.innovyze.com/education/student/。
關於Innovyze Innovyze是專為滿足水/污水處理企業,政府機構和工程組織在全球範圍內技術需求的濕基礎設施業務分析軟件解決方案的全球領先供應商。其客戶包括大部分的最大的英國,澳洲,東亞和北美城市,最重要的公共事業上的五大洲,並ENR頂級設計公司。公司在北美,歐洲和亞太地區無與倫比的專業知識和辦事處,Innovyze連接組合的最好的一流的產品線授權數千名工程師,以有競爭力的規劃,管理,設計,維護,運營和維持高效,可靠的基礎設施系統,並為客戶的成功創造了持久的平台。欲了解更多信息,請致電Innovyze +1 626-568-6868,或訪問  www.innovyze.com。
Innovyze聯繫方式:拉詹雷營銷總監,客戶服務經理
+1 626-568-6868

Thursday, September 3, 2015

Student Edition gratuite de l'Industrie InfoWater leader et InfoSWMM visant à donner aux étudiants mains sur l'expérience, mieux préparer la main-d'œuvre de l'industrie-Ready et Façonner l'avenir

Student Edition gratuite de l'Industrie InfoWater leader et InfoSWMM visant à donner aux étudiants mains sur l'expérience, mieux préparer la main-d'œuvre de l'industrie-Ready et Façonner l'avenir

Offres Innovyze libre Award-Winning SIG-Centric Software Modélisation de l'eau pour les universités du monde

Student Edition gratuite de l'Industrie InfoWater leader et InfoSWMM visant à donner aux étudiants mains sur l'expérience, mieux préparer la main-d'œuvre de l'industrie-Ready et Façonner l'avenir

Broomfield, Colorado, Etats-Unis, le 4 Août, ici à 2015

L'accomplissement de sa promesse d'augmenter continuellement la barre en matière d'éducation de l'eau de l'ingénierie des ressources et l'expansion du monde de l'apprentissage, Innovyze, un innovateur leader mondial de l'analyse d'affaires des logiciels et des technologies pour l'infrastructure hydraulique intelligente, a annoncé aujourd'hui la disponibilité de son eau de SIG-centric leader de l'industrie et un logiciel de modélisation des eaux usées gratuitement aux étudiants et aux professeurs établissements d'enseignement supérieur à travers le monde. Cette édition spéciale de l'étudiant à la fois  InfoWater  et  InfoSWMM, limitée à soixante liens, est conçu pour fournir universités du monde entier un moyen simple, souple d'utilisation, logiciel avancé de haute performance de la modélisation de l'eau dans leurs salles de classe et les laboratoires. Il aidera les élèves à apprendre et à développer des compétences importantes dans la conception, la planification, l'exploitation et la gestion de la distribution de l'eau durable et de collecte des eaux usées systèmes / d'eaux pluviales qui les aideront à se démarquer dans le marché du travail.
Innovyze comprend que les étudiants de génie civil doivent être académiquement et professionnellement préparé pour une carrière en génie. Pour les étudiants et les professionnels, il n'y a pas de substitut à l'expérience pratique. Sachant cela, de plus en plus d'universités aident les élèves ont accès à des outils à la pointe de la technologie et pratiques utilisées dans la salle de classe, où et quand ils en ont besoin. En adaptant leurs premier et deuxième cycles autour de la technologie Innovyze, membres du corps professoral de l'ingénierie peuvent être assurés qu'ils aident leurs étudiants ont un accès direct aux outils puissants et plus récents progrès de la technologie de modélisation des ressources en eau intelligente ils ont besoin pour succeed- non seulement en classe, mais en fin de compte que des ingénieurs professionnels.
"Innovyze  InfoWater  et  InfoSWMM  logiciel est devenu un standard pour beaucoup des plus grands services d'eau et d'eaux usées dans le monde et principales firmes d'ingénierie», a déclaré Scott Yost, Ph.D., PE, professeur agrégé de génie civil de l'Université du Kentucky. "Je peux voir ce logiciel utilisé par les meilleures écoles d'ingénieurs. Les  Analyse et Conception classeurs étudiants  sont également excellentes. Ayant une formation et de l'éducation dans cette technologie essentielle à la mission est un atout majeur dans la validation de l'expertise de nos étudiants à des employeurs potentiels ainsi que de les préparer à une carrière enrichissante ".
Construit au sommet d'ArcGIS (ESRI, Redlands, Californie),  InfoWater technologie de modélisation de réseau innovant de l 'aborde toutes les facettes de la gestion des infrastructures d'utilité et de protection - assure le plus haut taux de rendement dans l'industrie. Le logiciel intègre de façon transparente l'analyse prédictive sophistiqués, la dynamique des systèmes et des fonctionnalités d'optimisation directement dans le cadre de ArcGIS puissant. De flux de feu et des simulations dynamiques de qualité de l'eau, la vanne criticité et l'analyse des coûts de l'énergie à la gestion de la zone de pression et l'optimisation Algorithme Génétique et essaim de particules avancé, la suite est équipée d'utilité tout de l'eau propriétaires-exploitants ont besoin de mieux planifier, concevoir, exploiter, sécurisé et soutenir leurs systèmes de distribution.
InfoWater  sert aussi de plate-forme de base pour les extensions de modélisation du réseau, l'exploitation, la planification des immobilisations et de gestion d'actifs intelligents avancés. Parmi ces applications critiques sont  IWLive  (opérations et la sécurité en temps réel);  InfoWater UDF  (rinçage unidirectionnel); CapPlan  (planification du capital fondé sur le risque);  InfoMaster  et  InfoMaster mobile  (gestion de l'intégrité des actifs et évaluation de l'état);  InfoWater MSX  (multi-espèces modélisation);  InfoWater BTX  (événement / retour en arrière de particules);  InfoSurge  (surtension / d'analyse transitoire);  Durabilité  (calcul de l'empreinte carbone);  BalanceNet  optimisation (de gestion et d'exploitation de l'énergie en temps réel);  PressureWatch  (surveillance de l'intégrité hydraulique de réseau en temps réel);  QualWatch  (surveillance en temps réel de l'intégrité de la qualité de l'eau du réseau);  SCADAWatch  (en temps réel l'intelligence d'affaires et le suivi des performances);  DemandWatch  (eau prévision de la demande); et  DemandAnalyst  (la demande d'eau en temps réel et les estimations de cycle diurne).
En tant que solution complète de modélisation urbaine de drainage ArcGIS-centrique, le plein de fonctionnalités  InfoSWMM  analyse et programme de conception offre le plus haut taux de rendement dans l'industrie. Toutes les opérations d'un système d'égout typique - de l'analyse et de la conception aux fonctions de gestion telles que l'évaluation de la qualité de l'eau, la prévision de la pollution, le transport des sédiments et des dépôts, les inondations urbaines, contrôle en temps réel, et la tenue de dossiers - sont abordés dans un seul géoingénierie, entièrement intégré environnement. Puissant moteur de calcul hydraulique et qualité de l'eau Le programme est basé sur une version améliorée de la dernière SWMM 5.1.010, qui est approuvé par l'EPA et certifié par la FEMA. Ces fonctionnalités et plus offrent une expérience de modélisation améliorée et un plus grand réalisme des résultats affichés - avantages qui se traduisent par une productivité accrue, réduction des coûts, une plus grande précision, une meilleure efficacité, et de conceptions améliorées.
InfoSWMM  sert également une plate-forme robuste pour la modélisation avancée, les questions opérationnelles, à court terme, à long terme et la planification des immobilisations, le traitement des eaux pluviales urbaines et d'analyse, et les extensions de gestion d'actifs d'analyse axée. Certaines de ces applications critiques comprennent InfoSWMM 2D  (modélisation des inondations surface à deux dimensions),  CapPlan  (planification des fonds propres à risque et la modélisation de la performance des actifs), InfoSWMM Sustain  (sélection optimale et le placement de couvercles / MPG),  InfoSWMM SFEM  (de l'estimation des flux d'égout dynamique modèle),  InfoMaster (gestion d'actifs Analytics axée SIG-centric), et  RDII analyste  (écoulement et l'infiltration planification et l'analyse des précipitations-dépendant).
Une offre complète  de conception de l'étudiant et de l'analyse classeur  est également inclus pour chaque programme. En plus de la théorie de fond, les classeurs fournissent étape par étape les approches à l'eau et à la construction du modèle de réseau d'eaux usées, de simulation et d'analyse, et sont illustrés avec une variété d'études de cas soigneusement sélectionnés de renforcer le caractère pratique de l'apprentissage. En représentant des situations réelles de modélisation du réseau, les classeurs sont idéales pour les étudiants de se familiariser avec le travail au jour le jour la résolution de problèmes dans la pratique de l'ingénierie.
"Innovyze est déterminé à favoriser la réussite technique et le progrès technologique, tant dans l'enseignement et la recherche, dans toute la communauté de l'ingénierie», a déclaré Paul F. Boulos, Ph.D., BCEEM, Hon.D.WRE, Dist.D.NE, Dist .M.ASCE, NAE, président, chef de l'exploitation et chef de la direction technique de Innovyze. «À un moment où les universités sont confrontées à des budgets plus serrés, notre logiciel Student Edition offre à ces institutions les outils dont ils ont besoin pour enseigner à leurs élèves en utilisant la technologie state-of-the-art et de les préparer à des carrières professionnelles enrichissantes. Il permet aux étudiants qui sont intéressés dans le domaine de l'ingénierie des ressources de l'environnement et de l'eau pour former sur la technologie sophistiquée utilisée par les plus grands services d'eau et d'eaux usées et des entreprises de génie-conseil progressistes sur une base quotidienne. Cela leur donne un avantage concurrentiel imbattable et les aide à se développer. Il les prépare aussi avec les compétences dont ils ont besoin pour répondre aux demandes de l'industrie, de soutenir nos infrastructures de l'eau, faire progresser nos économies, et de construire un monde meilleur ".
Prix ​​et disponibilité
Étudiant édition spéciale de  InfoWater  et  InfoSWMM  avec leur  conception de l'étudiant et de l'analyse des classeurs  sont disponibles pour télécharger gratuitement à partir du site Innovyze au  http://www.innovyze.com/education/student/.
A propos de Innovyze Innovyze est un fournisseur leader mondial du commerce de l'infrastructure de solutions logicielles d'analyse humides conçus pour répondre aux besoins technologiques des services publics de l'eau / des eaux usées, des organismes gouvernementaux et des organisations d'ingénierie à travers le monde. Ses clients comprennent la majorité des plus grandes villes du Royaume-Uni, d'Asie et d'Amérique du Nord, de l'Est de l'Australasie, les services publics avant tout sur ​​les cinq continents, et les entreprises de conception ENR top-rated. Avec une expertise inégalée et des bureaux en Amérique du Nord, Europe et Asie-Pacifique, l'Innovyze connecté portefeuille de lignes de produits best-in-class habilite milliers d'ingénieurs de planifier la concurrence, de gérer, de la conception, de protéger, exploiter et de gérer les systèmes d'infrastructure hautement efficaces et fiables, et fournit une plate-forme durable pour la réussite du client. Pour plus d'informations, appelez Innovyze au +1 626-568-6868, ou visitez  www.innovyze.com.
Innovyze Contact: Rajan Ray Directeur du Marketing et du Service Client Manager
+1 626-568-6868

Student Edition gratuito de Industria InfoWater líder y InfoSWMM Dirigido a dar a los estudiantes Hands-On Experiencia, Mejor Preparación de la Fuerza Laboral-Industria Ready y de cara al futuro

Student Edition gratuito de Industria InfoWater líder y InfoSWMM Dirigido a dar a los estudiantes Hands-On Experiencia, Mejor Preparación de la Fuerza Laboral-Industria Ready y de cara al futuro

Innovyze De regalo premiado SIG-Centric Agua Modeling Software de Universidades en el mundo

Student Edition gratuito de Industria InfoWater líder y InfoSWMM Dirigido a dar a los estudiantes Hands-On Experiencia, Mejor Preparación de la Fuerza Laboral-Industria Ready y de cara al futuro

Broomfield, Colorado, EE.UU., 04 de agosto 2015

Cumpliendo su promesa de elevar continuamente la barra en la educación en ingeniería de los recursos hídricos y ampliar el mundo del aprendizaje, Innovyze, un innovador líder mundial de software de Business Analytics y tecnologías para la infraestructura del agua inteligentes, ha anunciado hoy la disponibilidad de su agua-SIG centrada líder en la industria y el software de modelado de aguas residuales gratis para los estudiantes y profesores de las instituciones de educación superior en todo el mundo. Esta edición especial del estudiante tanto  InfoWater  y  InfoSWMM, limitado a sesenta enlaces, está diseñado para proporcionar las universidades de todo el mundo con una forma simple y flexible para utilizar avanzado, de alto rendimiento de software de modelado agua en sus aulas y laboratorios. Esto ayudará a los estudiantes a aprender y desarrollar habilidades importantes en el diseño, planificación, operación y gestión de la distribución sostenible del agua y los sistemas de recolección de aguas residuales / pluviales que ayudarán a sobresalir en el mercado laboral.
Innovyze entiende que los estudiantes de ingeniería civil deben ser académicamente y profesionalmente preparado para una carrera de ingeniería. Para los estudiantes y profesionales por igual, no hay sustituto para la experiencia práctica. Sabiendo esto, más y más universidades están ayudando a los estudiantes a obtener acceso a las herramientas de estado-of-the-art y prácticas utilizadas en el aula cuando y donde lo necesiten. Al adaptar sus cursos de pregrado y postgrado de todo la tecnología Innovyze, miembros de la facultad de ingeniería pueden estar seguros de que están ayudando a sus estudiantes tienen acceso directo a las poderosas herramientas y últimos avances en los recursos hídricos inteligente tecnología de modelado que necesitan para succeed- no sólo en el aula, pero en última instancia, como ingenieros profesionales.
"Innovyze  InfoWater  y  InfoSWMM  software se ha convertido en un estándar para muchos de los más grandes empresas de agua y aguas residuales del mundo y las principales empresas de ingeniería," dijo Scott Yost, Ph.D., PE, Profesor Asociado de Ingeniería Civil en la Universidad de Kentucky. "Puedo ver este software utilizado por las mejores escuelas de ingeniería. Los  Análisis y Diseño Libros de Trabajo de Estudiantes  también son excelentes. Tener formación y educación en esta tecnología de misión crítica es un activo importante en la validación de la experiencia de nuestros estudiantes a los posibles empleadores, así como prepararlos para una carrera gratificante ".
Construido sobre ArcGIS (ESRI, Redlands, CA),  InfoWater innovadora tecnología de modelado de la red 's se dirige a todas las facetas de la gestión de la infraestructura de servicios públicos y la protección - la entrega de la más alta tasa de rendimiento en la industria. El software se integra perfectamente análisis predictivo sofisticados, dinámica de sistemas y funcionalidades de optimización directamente dentro del entorno ArcGIS poderoso. De flujo fuego y simulaciones dinámicas de calidad del agua, la criticidad de la válvula y el análisis de costos de la energía para la gestión de zonas de presión y optimización avanzada Algoritmo Genético y de Partículas Swarm, la suite está equipada con servicios públicos de todo el agua propietarios-operadores necesitan mejor plan, diseño, operación, seguro y sostener sus sistemas de distribución.
InfoWater  también sirve como plataforma base para extensiones de modelado de la red, operación, planificación de capital y gestión de activos inteligentes avanzados.Entre estas aplicaciones críticas son  IWLive  (operaciones en tiempo real y la seguridad);  InfoWater UDF  (enrojecimiento unidireccional); CapPlan  (planificación de capital basado en el riesgo);  Infomaster  y  Infomaster móvil  (gestión de integridad de activos y evaluación del estado);  InfoWater MSX  (multi-especies modelado); InfoWater BTX  (evento / retroceso de partículas);  InfoSurge  (aumento / análisis transitorio);  Sostenibilidad  (cálculo de la huella de carbono);  BalanceNet  optimización (gestión y operaciones de energía en tiempo real);  PressureWatch  (monitoreo de red integridad hidráulica en tiempo real);  QualWatch  (monitoreo en tiempo real la integridad la calidad del agua de red);  SCADAWatch  (en tiempo real la inteligencia empresarial y la supervisión del rendimiento);  DemandWatch  (agua previsión de la demanda); y  DemandAnalyst  (la demanda de agua en tiempo real y las estimaciones patrón diurno).
Como solución de modelado de drenaje urbano-ArcGIS centrada completa, la completa herramienta  InfoSWMM  análisis y programa de diseño ofrece la más alta tasa de rendimiento en la industria. Todas las operaciones de un sistema de alcantarillado típica - a partir del análisis y el diseño de las funciones de gestión, tales como la evaluación de la calidad del agua, la predicción de la contaminación, el transporte de sedimentos y deposición, inundaciones urbanas, control en tiempo real, y el mantenimiento de registros - se abordan en una sola geoingeniería, totalmente integrado ambiente. Potente motor de cálculo hidráulico y la calidad del agua del programa se basa en una versión mejorada de la última SWMM 5.1.010, que está respaldado por la USEPA y certificado por FEMA. Estas características y más ofrecen una experiencia de modelado mejorado y un mayor realismo de los resultados que se muestran - ventajas que se traducen en una mayor productividad, reducción de costos, mayor precisión, mayor eficiencia y mejores diseños.
InfoSWMM  también sirve como una plataforma sólida para el modelado avanzado, las cuestiones operativas, a corto plazo, a largo plazo y la planificación del capital, el tratamiento de aguas pluviales urbanas y el análisis, y análisis impulsada extensiones de gestión de activos. Algunas de estas aplicaciones críticas incluyen InfoSWMM 2D (superficie de dos dimensiones de modelado de inundación),  CapPlan  (planificación de capital basado en el riesgo y modelado del rendimiento de activos), InfoSWMM Sustain  (óptima selección y colocación de DIL / BMP),  InfoSWMM SFEM  (estimación de flujo de alcantarillado dinámica modelo),  Infomaster (gestión de activos basada en análisis SIG céntrica) y  RDII Analyst  (flujo de entrada y la infiltración de planificación y análisis de precipitaciones-dependiente).
Una amplia  Student Design y Análisis de libro de trabajo  también se incluye para cada programa. Además de la teoría de fondo, los libros ofrecen paso a paso se acerca al agua y la construcción de la red de aguas residuales modelo, la simulación y el análisis, y se ilustran con una variedad de estudios de casos cuidadosamente seleccionados para reforzar el carácter práctico del aprendizaje. Al representar situaciones de modelado de la red de la vida real, los libros de trabajo son ideales para que los estudiantes se familiaricen con el trabajo del día a día de resolución de problemas en la práctica de la ingeniería.
"Innovyze se ha comprometido a fomentar la realización técnica y el avance tecnológico, tanto en la enseñanza y la investigación, a través de la comunidad de ingeniería", dijo Paul F. Boulos, Ph.D., BCEEM, Hon.D.WRE, Dist.D.NE, Dist .M.ASCE, NAE, Presidente, Director de Operaciones y Director Técnico de Innovyze. "En momentos en que las universidades se enfrentan a presupuestos más ajustados, nuestra estudiante Software Edition ofrece estas instituciones las herramientas que necesitan para enseñar a sus alumnos utilizando tecnología de última generación y prepararlos para carreras profesionales gratificantes. Permite a los estudiantes que estén interesados ​​en el campo de la ingeniería de los recursos del medio ambiente y el agua para entrenar en la sofisticada tecnología utilizada por las principales empresas de servicios públicos de agua y saneamiento y empresas de ingeniería consultoría progresistas sobre una base diaria. Esto les da una ventaja competitiva inmejorable y les ayuda a prosperar.También los prepara con las habilidades que necesitan para satisfacer las demandas de la industria, sostener nuestras infraestructuras de agua, avanzar en nuestras economías, y construir un mundo mejor ".
Precio y disponibilidad
Edición Especial del estudiante  InfoWater  y  InfoSWMM  junto con su  diseño del estudiante y análisis libros  están disponibles para descargar de forma gratuita desde el sitio web Innovyze en  http://www.innovyze.com/education/student/.
Acerca Innovyze Innovyze es un proveedor global líder de soluciones de software de análisis de negocios de infraestructura húmedos diseñados para satisfacer las necesidades tecnológicas de las empresas de servicios públicos de agua / aguas residuales, agencias gubernamentales y organizaciones de ingeniería de todo el mundo. Sus clientes incluyen a la mayoría de los más grandes del Reino Unido, ciudades de Asia y América del Norte Australasia, Este, los servicios públicos más importantes en los cinco continentes, y las empresas ENR clasificados superiores de diseño. Con una experiencia sin precedentes y oficinas en Norteamérica, Europa y Asia Pacífico, el Innovyze conectado cartera de líneas de productos mejores de su clase faculta a miles de ingenieros para planear competitivos, gestionar, diseñar, protegen, operar y mantener los sistemas de infraestructura altamente eficiente y confiable, y proporciona una plataforma duradera para el éxito del cliente. Para obtener más información, llame Innovyze al +1 626-568-6868, o visite  www.innovyze.com.
Innovyze Contacto: Rajan Ray Director de Marketing y Servicio Client Manager
+1 626-568-6868

Tuesday, August 4, 2015

Innovyze Offers Free Award-Winning GIS-Centric Water Modeling Software to Universities Worldwide Free Student Edition of Industry Leading InfoWater and InfoSWMM Aimed at Giving Students Hands-On Experience, Better Preparing Industry-Ready Workforce and Shaping the Future

Innovyze Offers Free Award-Winning GIS-Centric Water Modeling Software to Universities Worldwide

Free Student Edition of Industry Leading InfoWater and InfoSWMM Aimed at Giving Students Hands-On Experience, Better Preparing Industry-Ready Workforce and Shaping the Future

Broomfield, Colorado, USA, August 4, 2015

Fulfilling its promise of continually raising the bar in water resources engineering education and expanding the world of learning, Innovyze, a leading global innovator of business analytics software and technologies for smart wet infrastructure, today announced the availability of its industry-leading GIS-centric water and wastewater modeling software free to students and professors at higher education institutions worldwide. This special student edition of both InfoWater and InfoSWMM, limited to sixty links, is designed to provide universities worldwide with a simple, flexible way to use advanced, high performance water modeling software in their classrooms and labs. It will help students learn and develop important skills in the design, planning, operation and management of sustainable water distribution and wastewater/stormwater collection systems that will help them stand out in the job market.

Innovyze understands that civil engineering students need to be academically and professionally prepared for an engineering career. For students and professionals alike, there is no substitute for hands-on experience. Knowing this, more and more universities are helping students gain access to state-of-the-art and practical tools used in the classroom whenever and wherever they need them. By tailoring their undergraduate and graduate courses around Innovyze technology, engineering faculty members can be assured they are helping their students have direct access to the powerful tools and latest advances in smart water resources modeling technology they need to succeed— not only in the classroom, but ultimately as professional engineers.
“Innovyze InfoWater and InfoSWMM software has become a standard for many of the world’s largest water and wastewater utilities and top engineering firms,” said Scott Yost, Ph.D., P.E., Associate Professor of Civil Engineering at the University of Kentucky. “I can see this software being used by the best engineering schools. The Student Analysis and Design Workbooks are also excellent. Having training and education in this mission-critical technology is a major asset in validating our students’ expertise to prospective employers as well as preparing them for a rewarding career.”

Built atop ArcGIS (Esri, Redlands, CA), InfoWater’s innovative network modeling technology addresses every facet of utility infrastructure management and protection — delivering the highest rate of return in the industry. The software seamlessly integrates sophisticated predictive analytics, systems dynamics and optimization functionality directly within the powerful ArcGIS setting. From fire flow and dynamic water quality simulations, valve criticality and energy cost analysis to pressure zone management and advanced Genetic Algorithm and Particle Swarm optimization, the suite comes equipped with everything water utility owner-operators need to best plan, design, operate, secure and sustain their distribution systems.

InfoWater also serves as a base platform for advanced smart network modeling, operation, capital planning and asset management extensions. Among these critical applications are IWLive (real-time operations and security); InfoWater UDF (unidirectional flushing);CapPlan (risk-based capital planning); InfoMaster and InfoMaster Mobile (asset integrity management and condition assessment); InfoWater MSX (multi-species modeling); InfoWater BTX (event/particle backtracking); InfoSurge (surge/transient analysis); Sustainability (carbon footprint calculation); BalanceNet (real-time energy management and operations optimization); PressureWatch (real-time network hydraulic integrity monitoring); QualWatch (real-time network water quality integrity monitoring); SCADAWatch (real-time business intelligence and performance monitoring); DemandWatch (water demand forecasting); and DemandAnalyst (real-time water demand and diurnal pattern estimations).

As a complete ArcGIS-centric urban drainage modeling solution, the full-featured InfoSWMM analysis and design program delivers the highest rate of return in the industry. All operations of a typical sewer system — from analysis and design to management functions such as water quality assessment, pollution prediction, sediment transport and deposition, urban flooding, real-time control, and record keeping — are addressed in a single, fully integrated geoengineering environment. The program’s powerful hydraulic and water quality computational engine is based on an enhanced version of the latest SWMM 5.1.010, which is endorsed by the USEPA and certified by FEMA. These features and more deliver an enhanced modeling experience and greater realism of displayed results — advantages that translate to increased productivity, reduced costs, higher accuracy, better efficiency, and improved designs.

InfoSWMM also serves as a robust platform for advanced modeling, operational issues, short-term, long-range and capital planning, urban stormwater treatment and analysis, and analytics-driven asset management extensions. Some of these critical applications includeInfoSWMM 2D (two-dimensional surface flood modeling), CapPlan (risk-based capital planning and asset performance modeling),InfoSWMM Sustain (optimal selection and placement of LIDs/BMPs), InfoSWMM SFEM (dynamic sewer flow estimation model), InfoMaster(GIS-centric analytics-driven asset management), and RDII Analyst (rainfall-dependent inflow and infiltration planning and analysis).
A comprehensive Student Design and Analysis Workbook is also included for each program. In addition to background theory, the workbooks provide step-by-step approaches to water and wastewater network model construction, simulation and analysis, and are illustrated with a variety of carefully selected case studies to reinforce the hands-on nature of learning. By representing real-life network modeling situations, the workbooks are ideal for students to familiarize themselves with the day-to-day problem-solving work in engineering practice.

“Innovyze is committed to fostering technical achievement and technological advancement, both in teaching and research, throughout the engineering community,” said Paul F. Boulos, Ph.D., BCEEM, Hon.D.WRE, Dist.D.NE, Dist.M.ASCE, NAE, President, COO and Chief Technical Officer of Innovyze. “At a time when universities are faced with tighter budgets, our Student Software Edition offers these institutions the tools they need to teach their students using state-of-the-art technology and prepare them for rewarding professional careers. It allows students who are interested in the field of environmental and water resources engineering to train on the sophisticated technology used by leading water and wastewater utilities and progressive consulting engineering companies on a daily basis. This gives them an unbeatable competitive advantage and helps them to thrive. It also prepares them with the skills they need to meet industry demands, sustain our water infrastructures, advance our economies, and build a better world.”
Pricing and Availability
Special student edition of InfoWater and InfoSWMM along with their Student Design and Analysis Workbooks are available to download free of charge from the Innovyze website at http://www.innovyze.com/education/student/.
About InnovyzeInnovyze is a leading global provider of wet infrastructure business analytics software solutions designed to meet the technological needs of water/wastewater utilities, government agencies, and engineering organizations worldwide. Its clients include the majority of the largest UK, Australasian, East Asian and North American cities, foremost utilities on all five continents, and ENR top-rated design firms. With unparalleled expertise and offices in North America, Europe and Asia Pacific, the Innovyze connected portfolio of best-in-class product lines empowers thousands of engineers to competitively plan, manage, design, protect, operate and sustain highly efficient and reliable infrastructure systems, and provides an enduring platform for customer success. For more information, call Innovyze at +1 626-568-6868, or visit www.innovyze.com.
Innovyze Contact:Rajan RayDirector of Marketing and Client Service Manager
Rajan.Ray@innovyze.com
+1 626-568-6868

Tuesday, November 18, 2014

InfoSWMM 2D Version 13 Brings Significant 1D and 2D Simulation Advancements To Power Users

InfoSWMM 2D Version 13 Brings Significant 1D and 2D Simulation Advancements To Power Users

Latest Release Confirms Product as Leading GIS-centric Urban Drainage Modeling and Management Solution

Broomfield, Colorado, USA, November 18, 2014

Innovyze, a leading global innovator of business analytics software and technologies for smart wet infrastructure, today announced the worldwide availability of the V13 Generation of its industry-leading InfoSWMM 2D for ArcGIS (Esri, Redlands, CA). InfoSWMM 2D delivers new ways to quickly and accurately build and analyze very large and comprehensive two-dimensional (2D) models that reliably simulate complex urban stormwater, sanitary sewers, river flooding and pollutant transport. It allows users to accurately predict the extent and duration of urban and rural flooding for comprehensive stormwater management directly within the powerful ArcGIS environment.

A fully hydrodynamic geospatial stormwater modeling and management software application, InfoSWMM 2D can be used to model the entire land phase of the hydrologic cycle as applied to urban stormwater systems. Built atop ArcGIS and using exceptionally robust and efficient numerical simulation capabilities, the model can perform single-event or long-term (continuous) rainfall/runoff simulations accounting for climate, soil, land use, and topographic conditions of the watershed. In addition to simulating runoff quantity, InfoSWMM 2D can reliably predict runoff quality, including buildup and washoff of pollutants from primarily urban watersheds. It also features very sophisticated Real-Time Control (RTC) schemes for the operational control and management of hydraulic structures.

A hallmark of InfoSWMM 2D is its dynamic integration of one-dimensional (1D) hydrodynamic simulation of flows in open channels, HEC-22 inlets and closed pipe networks with two-dimensional (2D) hydrodynamic simulation of surface runoff, evaporation, infiltration and flooding in the urban environment. The dynamic integration, achieved through an explicit coupling of 1D and 2D flow equations, provides a powerful solution for simultaneously modeling belowground and aboveground elements of watersheds to accurately represent all flow paths and improve understanding of holistic processes. InfoSWMM 2D also directly simulates the rainfall and infiltration on both the watershed and the 2D surface to better simulate 1D flooding, 2D surface flooding, 2D shallow groundwater recharge and complex 1D and 2D surface interactions.

The full 2D free-surface shallow water equations are solved using a highly advanced finite volume method, which is particularly suitable for rapidly varying flood flows such as those moving through steep streets and road junctions and those associated with bank overtopping or breaching. The unparalleled 1D/2D dynamic linking capabilities of InfoSWMM 2D give engineers the unprecedented power to analyze and predict potential flood extents, depth and velocity and accurately model the interaction of surface and underground systems in an integrated 1D/2D environment. The software can be used to simulate point sources, 2D boundaries, multiple 2D mesh and simulation polygons in a sewer or stormwater network. The combined water level and velocity results throughout the flooded areas can be viewed as various comprehensive graphs; tables; or animated, thematic flood maps.

Among its many new enhancements, Version 13 uses a significantly improved 2D simulation engine, the flexible InfoSWMM ArcMap polygon tools, a 1D InfoSWMM engine based on the latest EPA SWMM 5.1, a new 1D and 2D graphics engine and a comprehensive Output Report Manager and Statistical Event Manager for both 1D and 2D output. In addition, the new release allows users to instantly visualize the maximum extent of flooding in vivid 2D and 3D maps.

“We’re deeply committed to providing a geospatial modeling experience that is both intuitive and powerful, and InfoSWMM 2D V13 embodies that commitment,” said Paul F. Boulos, Ph.D., BCEEM, NAE, Hon.D.WRE, Dist.D.NE, F.ASCE, President, COO and Chief Technical Officer of Innovyze. “This release delivers major geotechnological and computational enhancements in short release cycles to make sure our customers are always equipped with the ultimate ArcGIS-centric decision support tool for stormwater and urban drainage systems. It greatly extends the core features of InfoSWMM, providing the most powerful and comprehensive ArcGIS-centric tool kit ever for managing the risks of urban and rural flooding. This is a must have for effectively controlling and managing sanitary sewer and combined sewer overflows.”

Tuesday, October 21, 2014

Innovyze Releases InfoSWMM Generation V13, Spearheading New Era in GIS-Centric Smart Wastewater Modeling

Innovyze Press Release
 Insider BlogLinkedInTwitterYouTubeYouTube
Innovyze Releases InfoSWMM Generation V13, Spearheading New Era in GIS-Centric Smart Wastewater Modeling
Latest Release Gives Communities Groundbreaking Network Simulation Power and Full Compatibility with SWMM 5.1
Broomfield, Colorado, USA, October 21, 2014 — In its ongoing quest to equip the wastewater industry with the world’s most comprehensive and innovative smart network modeling and management solutions, Innovyze, a leading global innovator of business analytics software and technologies for smart wet infrastructure, today announced the worldwide availability of the V13 Generation of its industry-leading InfoSWMM for ArcGIS (Esri, Redlands, CA). InfoSWMM V13 provides unique new capabilities and enhancements that comprise the most advanced approach to guiding and optimizing collection systems planning, designs, operations and management.
The only urban drainage modeling solution certified by the National Association of GIS-centric Software, the full-featured InfoSWMM analysis and design program delivers the highest rate of return in the industry. All operations of a typical sewer system — from analysis and design to management functions such as water quality assessment, pollution prediction, sediment transport and deposition, urban flooding, real-time control, and record keeping — are addressed in a single, fully integrated geoengineering environment. The program’s powerful hydraulic and water quality computational engine is based on the latest SWMM 5.1 version, which is endorsed by the USEPA and certified by FEMA. These features and more deliver an enhanced modeling experience and greater realism of displayed results — advantages that translate to increased productivity, reduced costs, higher accuracy, better efficiency, and improved designs.
InfoSWMM also serves as a robust base platform for advanced modeling, operational, capital planning, and analytics-driven asset management extensions. Some of these critical applications include InfoSWMM 2D (two-dimensional surface flood modeling), CapPlan (risk-based capital planning and asset performance modeling), InfoMaster (GIS-centric asset management), and RDII Analyst (rainfall-dependent inflow and infiltration planning and analysis).
The release of InfoSWMM V13 extends previous generations’ capabilities with over 50 new features, improvements, and groundbreaking innovations in geoengineering productivity and efficiency. These advances greatly simplify, accelerate, and integrate urban drainage network engineering, helping wastewater engineers develop better designs and operational improvements faster. Among the new features are new LID modules specifically for Green Roofs and Rain Gardens, addition of a modified Horton method for infiltration, the ability to use a second user-supplied equation for groundwater outflow as well as a conduit’s OPEN/CLOSED status in both control rules premise conditions and action clauses, addition of both evaporation and seepage from conduits, ability to save a hot start file that contains the full state of the system, the addition of  conduit flow volume as a time series output variable, and summary tables enhancements.
“Our priorities have always been to advance the frontiers of smart network modeling technology and support our customers’ successes by helping them be more productive, innovative and competitive —imperatives in today’s economy,” said Paul F. Boulos, Ph.D., BCEEM, NAE, Hon.D.WRE, Dist.D.NE, F.ASCE, President, COO and Chief Technical Officer of Innovyze. “This major InfoSWMM release delivers on our promise to equip our customers with the ultimate ArcGIS-centric decision support tool for sewer collection and urban drainage systems. Like its predecessors, InfoSWMM V13 sets a new standard for quality and high-performance network modeling and management with unrivaled power and speed, cutting-edge capabilities, rich functionality and ease of use. From top to bottom, it is designed for record modeling performance that enables users to increase their productivity and quality while achieving their engineering, sustainability and business goals.”
Pricing and Availability 
Upgrade to InfoSWMM V13 (and H2OMAP SWMM V13) is now available worldwide by subscription. Subscription members can immediately download the new version free of charge directly from www.innovyze.com. The Innovyze Subscription Program is a friendly customer support and software maintenance program that ensures the longevity and usefulness of Innovyze products. It gives subscribers instant access to new functionality as it is developed, along with automatic software updates and upgrades. For the latest information on the Innovyze Subscription Program, visit www.innovyze.com or contact your local Innovyze Channel Partner.

Thursday, January 2, 2014

RDII Components at a node for a 100 year simulation in SWMM 5

Introduction:  This set of blogs uses the 1000 year rainfall/runoff/hydraulics model that you can download at http://swmm2000.com/forum/topics/1000-year-simulation-with-rainfall-in-swmm-5 to show the inner workings of SWMM 5 and by extension InfoSWMM and H2oMap SWMM using a QA/QC version of SWMM 5 with extended graphics.   I always hope that seeing the inner workings of a SWMM 5 feature helps to understand the code, sensitivity and importance of a parameter.   It also helps show sometimes when a parameter is not important.   In this example, we show some of the internal working of the RDII estimation for SWMM5. 

Discussion:  There are nine main parameters for estimating RDII in SWMM 5:
1.       Slow response or R1, T1 and K1
2.      Medium response  R2, T2 and K2
3.      Fast Response or R3, T3 and K3
4.      The RDII flow is associated with a Node in SWMM 5 (Figure 1)
5.      The RDII flow is composed of three separate time series generated from the slow, medium and fast R,  T and K values (Figure 2)
6.      If you look at the total number of RDII events for the 100 years, the number of events goes down based on the value of the Time Base of the UH or T*K (also Figure 2) 

Figure 1.   RDII at a node for a 100 year simulation in SWMM 5
  

Figure 2.   RDII Component Events over the 100 year period using the SWMM 5 statistics block



Wednesday, January 1, 2014

Friday, November 29, 2013

Runoff from One Watershed for a 100 Year Simulation with SWMM 5 Statistics for Peak, Mean and Total Runoff

Introduction:  This set of blogs uses the 1000 year rainfall/runoff/hydraulics model that you can download at http://swmm2000.com/forum/topics/1000-year-simulation-with-rainfall-in-swmm-5 to show the inner workings of SWMM 5 and by extension InfoSWMM and H2oMap SWMM using a QA/QC version of SWMM 5 with extended graphics.   I always hope that seeing the inner workings of a SWMM 5 feature helps to understand the code, sensitivity and importance of a parameter.   It also helps show sometimes when a parameter is not important.  

Discussion:  In this blog we look at the Runoff total over the 100 year period, graph the runoff (Figure 1) and show the Mean, Total and Peak Runoff using the Statistics Command in SWMM 5.   The Frequency plots shown in Figure 1 are made using event separation time of 6 hours.  The number of Runoff Events over the 100 year period is 11,144 events.   The details of the simulation are shown in Figure 2.

Figure 1.   Runoff from One Watershed for a 100 Year Simulation with SWMM 5 Statistics for Peak, Mean and Total Runoff

Figure 2.  Details of the Simulation Watershed
[TITLE]

[OPTIONS]
FLOW_UNITS           CFS
INFILTRATION         GREEN_AMPT
FLOW_ROUTING         DYNWAVE
START_DATE           01/01/2500
START_TIME           00:00:00
REPORT_START_DATE    01/01/2500
REPORT_START_TIME    00:00:00
END_DATE             12/31/2599
END_TIME             23:00:00
SWEEP_START          01/01
SWEEP_END            01/30
DRY_DAYS             0
REPORT_STEP          01:00:00
WET_STEP             00:15:00
DRY_STEP             00:30:00
ROUTING_STEP         0:01:00
ALLOW_PONDING        NO
INERTIAL_DAMPING     NONE
VARIABLE_STEP        0.75
LENGTHENING_STEP     1
MIN_SURFAREA         0
NORMAL_FLOW_LIMITED  BOTH
SKIP_STEADY_STATE    NO
FORCE_MAIN_EQUATION  H-W
LINK_OFFSETS         DEPTH
MIN_SLOPE            0
; Added Parameters for QA/QC
MAX_PROCESSORS       NO
BYPASS               YES
ThetaStorage         NO
MAX_ITERATIONS       8
MIN_ITERATIONS       2
TOLERANCE            0.001000
RELAXATION           0.50
AREAWEIGHT           1.00
HYDRAULICWEIGHT      1.00
DWF_GLOBAL           1.0
RDII_GLOBAL          1.0
DEPTH_UNITS         
SaveAllData          NO

[FILES]
SAVE RAINFALL "C:\Users\Robert E Dickinson\Desktop\Desktop_July2012\RainFall.rff"

[EVAPORATION]
;;Type       Parameters
;;---------- ----------
MONTHLY      .1     0.1    .1     0.15   0.2    0.3    0.191  0.3    0.2    0.1    0.05   0.05 
RECOVERY     soil
DRY_ONLY     YES

[RAINGAGES]
;;               Rain      Time   Snow   Data     
;;Name           Type      Intrvl Catch  Source   
;;-------------- --------- ------ ------ ----------
RainGage         VOLUME    1:00   1.0    FILE       "D:\100_years_rainfall.dat" user       IN  

[SUBCATCHMENTS]
;;                                                 Total    Pcnt.             Pcnt.    Curb     Snow   
;;Name           Raingage         Outlet           Area     Imperv   Width    Slope    Length   Pack   
;;-------------- ---------------- ---------------- -------- -------- -------- -------- -------- --------
MySubCatchment           RainGage         Storage          10       10       100      0.5      0                       

[SUBAREAS]
;;Subcatchment   N-Imperv   N-Perv     S-Imperv   S-Perv     PctZero    RouteTo    PctRouted
;;-------------- ---------- ---------- ---------- ---------- ---------- ---------- ----------
MySubCatchment           0.02       0.05       0.05       0.1        25         OUTLET   

[INFILTRATION]
;;Subcatchment   Suction    HydCon     IMDmax   
;;-------------- ---------- ---------- ----------
MySubCatchment           4          1          0.25     

[OUTFALLS]
;;               Invert     Outfall    Stage/Table      Tide
;;Name           Elev.      Type       Time Series      Gate
;;-------------- ---------- ---------- ---------------- ----
Outfall          0          FREE                        NO

[STORAGE]
;;               Invert   Max.     Init.    Storage    Curve                      Ponded   Evap.  
;;Name           Elev.    Depth    Depth    Curve      Params                     Area     Frac.    Infiltration Parameters
;;-------------- -------- -------- -------- ---------- -------- -------- -------- -------- -------- -----------------------
Storage          1        9        0        FUNCTIONAL 10       0        0        0        0       

[CONDUITS]
;;               Inlet            Outlet                      Manning    Inlet      Outlet     Init.      Max.     
;;Name           Node             Node             Length     N          Offset     Offset     Flow       Flow     
;;-------------- ---------------- ---------------- ---------- ---------- ---------- ---------- ---------- ----------
VENANT           Storage          Outfall          500        0.013      0          0          0          0        

[XSECTIONS]
;;Link           Shape        Geom1            Geom2      Geom3      Geom4      Barrels    Culvert Code  Transition Multipler
;;-------------- ------------ ---------------- ---------- ---------- ---------- ---------- ---------- ---------- ----------
VENANT           CIRCULAR     3                0          0          0          1          0          0          0        

[LOSSES]
;;Link           Inlet      Outlet     Average    Flap Gate
;;-------------- ---------- ---------- ---------- ----------

[POLLUTANTS]
;;               Mass   Rain       GW         I&I        Decay      Snow  Co-Pollut.       Co-Pollut. DWF      
;;Name           Units  Concen.    Concen.    Concen.    Coeff.     Only  Name             Fraction   Concen.  
;;-------------- ------ ---------- ---------- ---------- ---------- ----- ---------------- ---------- ----------
tn               MG/L   1          0.0        0.0        0.0        NO    *                0.0        0.0      

[LOADINGS]
;;Subcatchment   Pollutant        Loading  
;;-------------- ---------------- ----------

[INFLOWS]
;;                                                 Param    Units    Scale    Baseline Baseline
;;Node           Parameter        Time Series      Type     Factor   Factor   Value    Pattern
;;-------------- ---------------- ---------------- -------- -------- -------- -------- --------
Storage          FLOW             ""               FLOW     1.0      1.0      1      

[DWF]
;;                                Average    Time     
;;Node           Parameter        Value      Patterns 
;;-------------- ---------------- ---------- ----------
Storage          FLOW             2          "Hourly"

[HYDROGRAPHS]
;;               Rain Gage/     
;;Name           Month            Response R        T        K        IA_max   IA_rec   IA_ini 
;;-------------- ---------------- -------- -------- -------- -------- -------- -------- --------
MANY             RainGage       
MANY             All              Short    .1       1        1        1        .01      0      
MANY             All              Medium   .05      3        3        1        .01      0      
MANY             All              Long     .01      5        10       1        .01      0      


[RDII]
;;Node           Unit Hydrograph  Sewer Area
;;-------------- ---------------- ----------
Storage          MANY             1        

[PATTERNS]
;;Name           Type       Multipliers
;;-------------- ---------- -----------
soil             MONTHLY    .01   .10   1     2     1     .10 
soil                        .01   .10   1     2     1     .1  

Hourly           HOURLY     0.191 0.236 0.251 0.302 0.400 0.463
Hourly                      0.703 1.000 0.876 0.670 0.491 0.456
Hourly                      0.400 0.358 0.274 0.290 0.373 0.385
Hourly                      0.468 0.596 0.640 0.543 0.403 0.364

[REPORT]
INPUT      YES
CONTROLS   NO
SUBCATCHMENTS ALL
NODES ALL
LINKS ALL

[TAGS]

[MAP]
DIMENSIONS 747573.697 247745.801 753800.907 251809.529
Units      Feet

[COORDINATES]
;;Node           X-Coord            Y-Coord          
;;-------------- ------------------ ------------------
Outfall          747879.187         247930.516       
Storage          750522.255         249213.382       

[VERTICES]
;;Link           X-Coord            Y-Coord          
;;-------------- ------------------ ------------------

[Polygons]
;;Subcatchment   X-Coord            Y-Coord          
;;-------------- ------------------ ------------------
MySubCatchment           747856.752         247967.907       
MySubCatchment           747726.887         248390.794       
MySubCatchment           747597.022         248813.681       
MySubCatchment           747221.312         249101.864       
MySubCatchment           747337.291         249659.456       
MySubCatchment           747484.496         250917.382       
MySubCatchment           749812.998         251702.471       
MySubCatchment           753039.238         251624.814       
MySubCatchment           753965.941         250721.110       
MySubCatchment           753517.852         247990.342       

[SYMBOLS]
;;Gage           X-Coord            Y-Coord          
;;-------------- ------------------ ------------------
RainGage         750276.915         250966.450       

GitHub code and Markdown (MD) files Leveraging

 To better achieve your goal of leveraging your GitHub code and Markdown (MD) files for your WordPress blog or LinkedIn articles, consider t...