Конвергенция систем жизнеобеспечения
Раздельные сети, которые выполняют в принципе одинаковые задачи – сбор информации с датчиков сенсоров и доставка этой информации в центр, на консоль. Команды управления – которые опускаются сверху вниз – открыть дверь, включить кондиционер, отключить освещение
Закрытые решения – отключение освещения , если в здании нет людей – нетрививальная задача.
Объединение систем жизнеобеспечения под общим интелектуальным управлением
Умный дом.
«Умным домом» мы, вроде бы, уже переболели:
Перестает быть игрушкой богатых хозяев –
позволяет уменьшить расходы на эксплуатацию, увеличить безопасность и комфорт
становится увеличения
IP- универсальный транспорт
From a Cisco perspective we recognize the opportunity to converge many different systems on to the IP network
Today many of these systems are silo’d and suffer from a lack of interoperability that would make them and their owner users far more effective.
For example, the fire system can do a great job of detecting smoke, heat, etc. but can’t tell you how many people are in the building, who they are and where they might be – however the Access control system, and video surveillance system could likely provide that information. Clearly, there are opportunities to tie these and other systems together more than they are today and the IP network can help.
And the result is a number of benefits.
Synergies
Cost savings
New capabilities
Better return on investment
Слайд про все PS
Phase 1 - Analog Enhancement (We did this with the Sypixx Acquisition)
Bringing Analog into the IP World
Increase the value of Analog by blending in digital capabilities
Helping the Security Officers ease into the digital world
Breaking the proprietary dominance and interconnecting multi-vendor environments
Port analog infrastructures to a reliable/scalable digital platform.
Phase 2 - Establishing an Open Digital Platform (We did this with the Broadware Acquisition)
no technology religion, interoperates with multiple cameras, encoders, storage, etc...
Provide a open architected web-based video management system
Phase 3 - Platform Convergence FY08 Focus
Single Management Interface for both Sypixx and Broadware ASSETS
Integrate analog and IP solutions and afford a single unified UI
Access Control / Camera Line
Phase 4 - Peer System Integration (as we expand into other markets this is a critical phase)
POS Systems, Slot Integration, Sensors, Continued Access Control (Continuing Focus, FY09)
Support a widening circle of peer solutions in this architecture
This links to our entrance into various vertical markets
Phase 5 – IT Network Integration (EFT's Started, FY09)
Unified Communications, IT Security, Wireless
That’s the products, now let’s look how this ties into the network
You can either take content coming in from the encoder or 3rd-party content you’ve licensed like discovery channel material
Bring it in to the Digital Media Manager for scheduling of delivery and all the other delivery features we discussed (keyword tagging, creating playlists, packaging the other content.
Cisco Digital Media Manager to provide management of encoders, business video, and digital signage content.
The Digital Media Manager works with our Application Networking services for WAN optimization, caching, streaming.
Content is distributed across Cisco wide-area application engines for pre-positioning, content caching, and streaming services using Cisco ACNS.
In this example we are showing how the Cisco WAE pushes the content out to branch offices. But you could also use a standard Web server.
Today we have a set of products that support the configuration, transmission, monitoring, recording, storage of video with a set of hardware and software based products from the 2 companies.
+2 Interface
Cisco Aironet 1250 Series Access Point
Part number: AIR-AP1252AG-x-K9 - $1299 (802.11a/g/n-d2.0 2.4/5-GHz Mod Auto AP; 6 RP-TNC)
Part number: AIR-LAP1252AG-x-K9 - $1299 (802.11a/g/n-d2.0 2.4/5-GHz Mod Unified AP; 6 RP-TNC)
Part number: AIR-AP1252G-x-K9 - $1249 (802.11g/n-d2.0 2.4-GHz Mod Auto AP; 3 RP-TNC)
Part number: AIR-LAP1252G-x-K9 - $1249 (802.11g/n-d2.0 2.4-GHz Mod Unified AP; 3 RP-TNC)
Wireless LAN Controller Module
(Note - the last day to order the 6 AP module is Feb. 18, 2008)
Part NumberDescriptionList PriceNM-AIR-WLC6-K9 Cisco Wireless LAN Controller Module for managing up to 6 lightweight access points (when sold as part of ISR system)$2,300NM-AIR-WLC6-K9= Cisco Wireless LAN Controller Module for up to 6 lightweight access points (spare, ordered as an individual unit)$2,300NME-AIR-WLC8-K9Cisco Wireless LAN Controller Module for managing up to 8 lightweight access points (when sold as part of ISR system)$4,750NME-AIR-WLC8-K9=Cisco Wireless LAN Controller Module for up to 8 lightweight access points (spare, ordered as an individual unit)$4,750NME-AIR-WLC12-K9Cisco Wireless LAN Controller Module for managing up to 12 lightweight access points (when sold as part of ISR system)$6,500NME-AIR-WLC12-K9=Cisco Wireless LAN Controller Module for up to 12 lightweight access points (spare, ordered as an individual unit)$6,500
Migrate Analog Video onto the IP Network
Up to 16 Analog Video Ports
Choice of preferred Codec: MJPEG, MPEG-4
Transport with Standard Protocols
Camera Control:
2xRS-485 ports for Pan/Tilt/Zoom control
Management Station Alerts
8 Contact Closure Ports for sensor triggers
Optimize video with Analytics
Built in Motion Detection algorithms
Establishes baseline interoperability between devices and systems
Extends the functionality of devices that use the API
Multiservices Platforms
Integrated Services Routers (ISR) and Rugged ISR
A wide “dynamic range” refers to the camera’s ability to display video images based on a wide spectrum of lighting values. Traditionally, video surveillance cameras would have great difficulty in capturing an accurate video image when shooting heavily backlit areas. Foreground objects near exterior doors and windows would tend to be inaccurately depicted as heavily darkened or silhoutted foreground objects, while the background would be blown-out and indistinguishable. The image below shows a video image from the Cisco Dome IP Camera’s imager on the left, with very distinct background detail. The image on the right is over saturated and unreadable.
The Cisco Dome IP Camera is capable of picking up details in multiple lighting conditions by determining the specific exposure needed by each pixel independently. This independent pixel imaging method ensures natural color rendition, zero blooming and smear to capture image detail at all light levels.
Many IP cameras capture video images at a resolution known as Video Graphics Array (VGA) resolution. VGA resolution is 640x480 pixels and was first introduced in the personal computer industry. VGA was also used by some of the early IP video camera manufacturers. This VGA resolution is still used by many of the IP camera vendors.
Traditional analog video surveillance systems use D1 resolution which was defined by the Society of Motion Picture and Television Engineers (SMPTE). D1 resolution is 720x480 for NTSC systems and 720x576 for PAL systems.
The Cisco Dome IP Camera offers D1 video resolution which provides a larger viewing area vs. VGA resolution. This additional viewing area represents up to 25% increase in pixel resolution, which enhances the ability to monitor a wider area or field of view without sacrificing the ability to identify specific people or objects in a scene.
The Cisco HD IP Camera uses the H.264 AVC (MPEG4 part 10) Main Profile for compressing the HD video before transmitting to the IP network. In addition to decreasing network bandwidth requirements, the AVC also dramatically reduces storage requirements. This results in decreased overall system costs.
A typical surveillance application would require video storage for one week. The H.264 video would occupy only 30MB of hard drive space, while MJPEG video would occupy 400MB of space per video stream.
So physical access control is coming soon and it is essentially the same products that customers have been deploying for eons. The concept of access control is not unique. What is unique is the way we deploy it. So again, back to how you push it out, today's access control basically takes dedicated serial connections that go to a door, dedicated power, that all comes back to the central access panel, which then has an Ethernet port in it. It's very costly to add access to doors and, frankly, most people don't put card access on more doors because of the cost associated with that and the facilities. So that little box in the upper left hand side replaces all that infrastructure. It's Power over Ethernet so if you can get a Power to Ethernet port we can actually power a door reader and a lock and control that door from that single box which is I don't know, what do you say, Dennis, probably about eight inches by six inches, really small form factor, and provide the same functionality. It's also integrated with our video surveillance system so that when you say pop a door it'll actually pop up or there's an alarm or alert in the access control system. It will actually automatically pull the relevant video from our video surveillance system so we've already pre-done that integration for customers.
Cisco IPICS enables communications among multiple devices – disparate radio systems, desktops, telephony, Cellular, Push to talk over cellular
Узнать как в телекоме выход на мобильные
ИП
Типичные сценарии (Вохмин)
СМ (расписать схему)
Рассказать кто источник событий
После каждого домика добавить адженду
Открывание двери с телефона
Intercom system
http://wwwin.cisco.com/etg/psbu/files/case_study_inauguration.pdf – иногурация презедента США
Время развертывания
Сколько точек
Объекты наблюдения
У себя и на продажу
Video surveillance is part of a broader plan for emergency communications at Elon University. “We have sirens, text messaging, email alerts, broadcasts to the speakers of campus Cisco Unified IP Phones, and now video surveillance,” says Waters. “Connecting all emergency communications systems to the same IP network gives us the capability to automate incident response (for example, by setting off an alarm, sending text messages to appropriate people, and publishing a message on our digital signage
Показать коробку и МАР (3G)
Места установки камер (условия эксплуатации), фотоглафии, (условия для морозоустойчивых камер)
Условия подключения всего
Более подробно про аналоговые системы
Датацентры – как один из вариантов – наблюдение сохранение информации
Альянс за совместимость систем физической безопасности (Physical Security Interoperability Alliance, PSIA) опубликовал спецификации интерфейсов прикладного программирования (API) для IP-устройств, чтобы тем самым повысить уровень совместимости и взаимодействия между системами физической безопасности в стандартных IP-сетях.
Альянс представляет собой открытую организацию, созданную для расширения совместимости устройств безопасности, работающих на основе IP-технологий. Новые спецификации, признанные нижепоименованными 19 лидерами отрасли, представляют собой первый стандарт PSIA.
Начальный список спецификаций API предназначен для таких IP-устройств видеонаблюдения, как IP-камеры, устройства кодирования и цифровые регистраторы. Эти спецификации позволят системам безопасности распознавать и менять конфигурацию и управлять различными IP-устройствами. Кроме того, они избавляют от необходимости настраивать драйверы устройств для обеспечения совместимости продуктов разных производителей.
"Спецификации интерфейсов API для IP-устройств решают ряд важных проблем, таких как распознавание устройств, настройка конфигурации и управление. Это один из первых шагов на пути к подлинной совместимости и полной отраслевой конвергенции, - считает Пит Янковски (Pete Jankowski), председатель группы видеоэкспертов PSIA и главный технический директор отдела физической безопасности Cisco. - Спецификации определяют единый набор методов связи со стандартными IP-сетями, позволяя производителям, системным интеграторам и разработчикам приложений обеспечить совместимость устройств и существенно повысить их ценность для заказчика".
Признавая важность сотрудничества в области разработки открытых отраслевых стандартов, спецификации PSIA поддержали 19 компаний-лидеров отрасли: Adesta LLC, ADT Security Services, Cisco, CSC, DVTel, GE Security, Honeywell, IBM, IQinVision, Johnson Controls, March Networks, ObjectVideo, Orsus, Panasonic, Pelco, Santa Clara Consulting Group, Texas Instruments, Verint и Vidyo. PSIA будет расширять набор спецификаций и включит в них вопросы взаимодействия электронных систем контроля доступа, распознавания вторжений и других мультивендорских систем и устройств безопасности, обменивающихся информацией по сети.
"Стандартизация этого типа обеспечит организациям целый ряд преимуществ. Она упростит процесс внедрения и сократит текущие расходы, - заявил Джон Фенске (John Fenske), директор по глобальным программам и поддержке продуктов из компании Johnson Controls. - Заказчики получат возможность устанавливать любые IP-устройства безопасности, наилучшим образом отвечающие их потребностям, не заботясь о вопросах совместимости".
Спецификации интерфейсов API для IP-устройств были разработаны группой экспертов (IP Video Expert Group), созданной альянсом ведущих производителей и интеграторов устройств физической безопасности и информационно-технологических систем. С полным списком спецификаций можно познакомиться на сайте PSIA (www.psialliance.org), где также опубликован пример внедрения, показывающий, как использовать спецификации при установке IP-видеосистем.