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Line 1: {{Short description\|Network protocols for control of entertainment technology equipment}} {{Refimprove\|date=January 2012}} {{Infobox protocol '''Architecture for Control Networks''' ('''ACN''') is a suite of [[network protocol]]s for control of entertainment technology equipment, particularly as used in live performance or large scale installations. For example, lighting, audio or special effects equipment. ACN is maintained by [[PLASA\|Professional Lighting and Sound Association]] and its first official release was [[ANSI]] Standard E1.17-2006 - Entertainment Technology - Architecture for Control Networks. The standard was subsequently revised and released as ANSI E1.17-2010.▼ \| name = Architecture for Control Networks \| image = <!--without [[File:...]] syntax--> \| caption = \| standard = [[ANSI]] Standard E1.17-2006 \| developer = <!--organization(s) involved in development--> \| introdate = <!--{{Start date\|YYYY\|MM\|DD}}--> \| industry = <!--industries used (such as PC/Chemical/Multimedia)--> \| connector = <!--connector(s) usable with protocol--> \| hardware = <!--examples of compatible hardware--> \| range = <!--{{convert\|X\|mi\|abbr=on}}--> \| newer = <!--superseded by which protocol--> }} ▲'''Architecture for Control Networks''' ('''ACN''') is a suite of [[network protocol]]s for control of entertainment technology equipment, particularly as used in live performance or large -scale installations. For example, lighting, audio or special effects equipment. ACN is maintained by [[~~PLASA\|Professional~~Entertainment ~~Lighting~~Services and ~~Sound~~Technology Association]] and its first official release was [[ANSI]] Standard E1.17-2006 - Entertainment Technology - Architecture for Control Networks. The standard was subsequently revised and released as ANSI E1.17-2010. ACN was initially designed to be layered on top of [[User Datagram Protocol\|UDP/IP]] and therefore will run over most [[Internet Protocol\|IP]] transports including standard, inexpensive [[Ethernet]] and [[802.11]] (Wi-Fi) networks.▼ ▲ACN was initially designed to be layered on top of [[User Datagram Protocol\|UDP/IP]] and therefore will run over most [[Internet Protocol\|IP]] transports including standard, inexpensive [[Ethernet]] and [[802.11]] ([[Wi-Fi]]) networks. ==Protocol architecture== ACN defines a common protocol architecture, two major network protocols (SDT, DMP), a device description language (DDL) and a number of ‘E1.17 Profiles for Interoperability’ (known as ''EPI''s or ''[[#Interoperability ~~Profiles~~profiles\|interoperability profiles]]'') which define how elements of the ACN architecture must be used in a particular context to achieve interoperability. For example, by providing specific values or ranges for timing parameters to be used in a particular network environment. The breakdown of ACN into sub-protocols, ~~Interoperability~~interoperability ~~Profiles~~profiles and other small pieces has been criticized{{by whom\|date=January 2016}} as making ACN hard to read and understand but it makes the architecture highly modular and cleanly layered and this has allowed many of the pieces to be operated in other contexts or replaced or revised without changing the other pieces. For example, DMP has been operated over TCP as well as over SDT as defined in the initial standard, DDL has been adapted with little change to describe devices accessed by DMX512 (ANSI E1.31/Streaming ACN), and several ~~Interoprability~~interoperability ~~Profiles~~profiles have seen major revision or replacement without disturbing the other parts of the standard. ===Common Architecture=== The common architecture specification defines a format of nested ~~''Protocol~~[[protocol ~~Data~~data ~~Units''~~unit]]s (~~''PDU''s~~PDUs), rather similar to [[~~Type-length-value~~Type–length–value\|TLV]] encoding, which are used in the main protocols. It then defines how a minimal Root Layer Protocol is used to splice the higher level protocols into a lower level transport and defines such a Root Layer Protocol using the PDU format for use on [[User Datagram Protocol\|UDP/IP]]. ===~~SDT (~~Session Data Transport)=== Session Data Transport (SDT) is a [[reliable multicast]] transport protocol which operates over [[User Datagram Protocol\|UDP/IP]] which can be used to group peers within a network into ''sessions'' and deliver messages to them individually or as a group. ~~Messages~~Message delivery is ordered and messages may be selectively sent [[Reliability (computer networking)\|reliably or unreliably]] on a message-by-message basis (reliability is very important for some data while avoiding the time and resource overhead of the reliability mechanism is beneficial for others). The reliability mechanism also provides online status so a component will detect when a connection is broken. SDT provides a high degree of fine tuning over the trade-off between latency, ~~reiability~~reliability levels and resource requirements and availability of large numbers of concurrent sessions means they are a powerful tool for grouping and managing components whose functions are related or whose communication requirements are similar. ===~~DMP (~~Device Management Protocol)=== Device Management Protocol (DMP) represents any device as a set of addressable properties which represent its current or desired state. Monitoring or control by a controller is achieved by setting or examining the values of those properties. To avoid the inefficiencies of polling, in addition to simply reading property values (using a ''Get-Property'' message) DMP provides a subscription mechanism whereby a device will asynchronously send event messages to all subscribed controllers when the value of a property changes. DMP expects that its connections can provide reliability so that ''Set-Property'' and ''Event'' messages which form a large part of the operational bandwidth in a show situation do not require explicit acknowledgement at the DMP level. In the E1.17 standard and the majority of systems SDT provides this reliability but DMP has also been operated ~~usng~~using TCP to provide its reliable connections. The size in bits, representation, read/write accessibility and function of each property in a DMP device is not determined by the protocol which only defines the mechanism to read and/or write the property value. Instead, that information must either be provided externally by a device description written in DDL or in limited cases may be pre-programmed by fore-knowledge of specific device types. ===~~DDL (~~Device Description Language)=== Device Description Language (DDL) allows a machine parsable description of the interface and capabilities of any device to be defined.<ref name="EngArts">{{Cite web\|url=http://www.engarts.com/ddl/index.html\|title=Device Description Language}}</ref> This description can be interpreted by a controller which may then automatically configure itself for controlling that device. The description not only provides the address and property mapping information which is necessary for DMP to operate but it can also contain a huge amount of information on the functionality, capabilities and semantics of the device in an extensible format which allows a controller to extract the features it needs for its specific context while skipping over information which is not relevant to its needs.<ref>{{Cite web \|url=http://powers.media.mit.edu/wiki/upload/E1-17ACN2006DDL.pdf \|title=ANSI E1.17-2006 Architecture for Control Networks - Device Description Language (DDL) \|archive-url=https://web.archive.org/web/20141129101447/http://powers.media.mit.edu/wiki/upload/E1-17ACN2006DDL.pdf \|archive-date=2014-11-29 \|url-status=dead }}</ref> DDL is an [[XML]] based language and descriptions are contained in a small number of [[XML]] documents. In normal ACN systems the description for a device may be downloaded from the device ~~itelf~~itself. However, descriptions may also be distributed in other ways (such as internet download) and since a description is valid for all devices of the same type, controllers can typically maintain a cache of descriptions for devices they commonly encounter. ===Interoperability profiles=== ~~'''~~Interoperability ~~Profiles'''~~profiles (~~'''EPI'''s~~EPIs) are provided in ANSI E1.17 for initial [[service discovery]] in a system; for allocation of [[multicast address]]es when used on UDP and [[IPv4]]; for [[Port (computer networking)\|UDP port]] allocation when multicasting, for [[IP address]] assignment in conformant systems, for protocol timeouts in specific environments and so on. Other EPIs which conform to the ACN Architecture have been developed outside the ANSI E1.17 standard (see below). ==External ~~Extensions~~extensions== Due to its modular nature ACN has been easy to extend. Line 50 ⟶ 65: ==Implementations== An early [[Open-~~source_software~~source software\|open-source]] implementation of ACN was released as OpenACN<ref>{{cite web \|url=~~http~~https://sourceforge.net/projects/openacn/ \|title=OpenACN \|accessdate=2011-08-25}}</ref> and is available on [[SourceForge]]. This has been ported to a wide range of platforms, but it is limited in its scope and does not implement any DDL support. There is another open source ACN project<ref>{{cite web\|url=https://github.com/HakanL/ACN\|title=Architecture for Control Networks project home page\|website=[[GitHub]] \|accessdate=2022-03-09}}</ref> which is implemented in [[C Sharp (programming language)\|C#]]. This aims to provide a full [[managed code]] implementation and includes code for several other related protocols. A more recent and much more complete implementation in [[C_(programming_language)\|C]] is 'Acacian,'<ref>{{cite web \|url=http://WWW.ACACIAN.ORG/ \|title=Acacian \|accessdate=2014-08-10}}</ref> which includes more features and DDL support. ~~There~~An isfull ~~yet~~implementation ~~another~~entitled ~~open source ACN project~~Acacian<ref>{{cite web\|url=~~http~~https://~~acn.codeplex~~github.com/hoyes/acacian\|title=~~Architecture for Control Networks~~Acacian project ~~home~~on GitHub\|website=[[GitHub]] ~~page~~\|accessdate=~~5 October 2011~~2022-05-05}}</ref> onin [[~~Codeplex]]~~C ~~which~~(programming ~~is implemented in [[C_Sharp_(programming_language~~language)\|C#]]., ~~This~~which ~~aims~~includes toparsing ~~provide~~of aDDL ~~full~~descriptions ~~[[managed~~to ~~code]]~~generate ~~implementation~~DMP ~~and~~structures ~~includes~~was ~~code~~released ~~for~~under ~~several~~the ~~other~~[[Mozilla ~~related~~Public ~~protocols.~~Licence]] in 2014 E1.31 (Streaming DMX over ACN) is supported on [[Linux]] ([[ARM architecture\|ARM]], [[Intel 80386\|i386]], [[x86-64]]) and [[Macintosh]] ([[PowerPC]]; i386, x86-64) by the Open Lighting Architecture.<ref>{{cite web \|url=http://opendmx.net/index.php/OLA \|title=Open Lighting Architecture \|accessdate=2012-01-05}}</ref> A [[Rust (programming language)\|Rust]] implementation of E1.31 can be found on [[GitHub]].<ref>{{cite web \|url=https://github.com/RustLight/sacn \|title=RUST Sacn \|website=[[GitHub]] \|accessdate=2022-03-09}}</ref> ACN has been deployed in proprietary implementations by a number of companies, including its use by [[Electronic Theatre Controls]] (ETC) as the basis of their 'NET3' branded networked control infrastructure and by [[Shure\|Shure Inc.]] in control of wireless microphones.▼ ▲ACN has been deployed in proprietary implementations by a number of companies, including its use by [[Electronic Theatre Controls]] (ETC) as the basis of their 'NET3' branded networked control infrastructure and by [[Shure\|Shure Inc.]] in control of wireless microphones. == See also == Line 70 ⟶ 87: ==External links== * [https://web.archive.org/web/20060111182052/http://www.esta.org/tsp/working_groups/CP/projs.html ESTA's Technical Standards Program] [[Category:Stage lighting]] ~~[[Category:Internet protocols]]~~ [[Category:Internet Standards]] [[Category:Application layer protocols]]