Interactive voice response
Interactive voice response (IVR) is a technology that allows humans to interact with a computer-operated phone system through the use of voice and DTMF tones input via a keypad. In telecommunications, IVR allows customers to interact with a company’s host system via a telephone keypad or by speech recognition, after which services can be inquired about through the IVR dialogue. IVR systems can respond with pre-recorded or dynamically generated audio to further direct users on how to proceed. IVR systems deployed in the network are sized to handle large call volumes and also used for outbound calling as IVR systems are more intelligent than many predictive dialer systems.
IVR systems can be used for mobile purchases, banking payments, services, retail orders, utilities, travel information and weather conditions. A common misconception refers to an automated attendant as an IVR. The terms are distinct and mean different things to traditional telecommunications professionals—the purpose of an IVR is to take input, process it, and return a result, whereas that of an automated attendant is to route calls. The term voice response unit (VRU) is sometimes used as well.
Despite the increase in IVR technology during the 1970s, the technology was considered complex and expensive for automating tasks in call centers. The first commercial application of IVR was an order entry inventory control system designed and developed by Steven Schmidt in 1973. Early voice response systems were DSP technology based and limited to small vocabularies. In the early 1980s, Leon Ferber's Perception Technology became the first mainstream market competitor, after hard drive technology (read/write random-access to digitized voice data) had reached a cost-effective price point. At that time, a system could store digitized speech on disk, play the appropriate spoken message, and process the human's DTMF response.
As call centers began to migrate to multimedia in the late 1990s, companies started to invest in computer telephony integration (CTI) with IVR systems. IVR became vital for call centers deploying universal queuing and routing solutions and acted as an agent which collected customer data to enable intelligent routing decisions. With improvements in technology, systems could use speaker-independent voice recognition of a limited vocabulary instead of requiring the person to use DTMF signaling.
Starting in the 2000s, voice response became more common and cheaper to deploy. This was due to increased CPU power and the migration of speech applications from proprietary code to the VXML standard.
Other technologies include using text-to-speech (TTS) to speak complex and dynamic information, such as e-mails, news reports or weather information. IVR technology is also being introduced into automobile systems for hands-free operation. TTS is computer generated synthesized speech that is no longer the robotic voice traditionally associated with computers. Real voices create the speech in fragments that are spliced together (concatenated) and smoothed before being played to the caller.
An IVR can be deployed in several ways:
- Equipment installed on the customer premises
- Equipment installed in the PSTN (public switched telephone network)
- Application service provider (ASP) / hosted IVR
An automatic call distributor (ACD) is often the first point of contact when calling many larger businesses. An ACD uses digital storage devices to play greetings or announcements, but typically routes a caller without prompting for input. An IVR can play announcements and request an input from the caller. This information can be used to profile the caller and route the call to an agent with a particular skill set. (A skill set is a function applied to a group of call-center agents with a particular skill.)
Interactive voice response can be used to front-end a call center operation by identifying the needs of the caller. Information can be obtained from the caller such as an account number. Answers to simple questions such as account balances or pre-recorded information can be provided without operator intervention. Account numbers from the IVR are often compared to caller ID data for security reasons and additional IVR responses are required if the caller ID does not match the account record.
IVR call flows are created in a variety of ways. A traditional IVR depended upon proprietary programming or scripting languages, whereas modern IVR applications are generated in a similar way to Web pages, using standards such as VoiceXML, CCXML, SRGS and SSML. The ability to use XML-driven applications allows a web server to act as the application server, freeing the IVR developer to focus on the call flow.
A directed dialogue prompt communicates a set of valid responses to the user (e.g. "How can I help you? ... Say something like, account balance, order status, or more options"). An open-ended prompt does not communicate a set of valid responses (e.g. "How can I help you?"). In both cases, the goal is to glean a valid spoken response from the user. The key difference is that with directed dialogue, the user is more likely to speak an option exactly as was communicated by the prompt (e.g. "account balance"). With an open-ended prompt, however, the user is likely to include extraneous words or phrases (e.g. "I was just looking at my bill and saw that my balance was wrong."). The open-ended prompt requires a greater degree of natural language processing to extract the relevant information from the phrase (i.e. "balance"). Open-ended recognition also requires a larger grammar set, which accounts for a wider array of permutations of a given response (e.g. "balance was wrong", "wrong balance", "balance is high", "high balance"). Despite the greater amount of data and processing required for open-ended prompts, they are more interactively efficient, as the prompts themselves are typically much shorter.
A mixed dialogue approach involves shifting from open-ended to directed dialogue or vice versa within the same interaction, as one type of prompt may be more effective in a given situation. Mixed dialog prompts must also be able to recognize responses that are not relevant to the immediate prompt, for instance in the case of a user deciding to shift to a function different from the current one.
Higher level IVR development tools are available to further simplify the application development process. A call flow diagram can be drawn with a GUI tool and the presentation layer (typically VoiceXML) can be automatically generated. In addition, these tools normally provide extension mechanisms for software integration, such as an HTTP interface to a website and a Java interface for connecting to a database.
In telecommunications, an audio response unit (ARU) is a device that provides synthesized voice responses to DTMF keypresses by processing calls based on (a) the call-originator input, (b) information received from a database, and (c) information in the incoming call, such as the time of day. ARUs increase the number of information calls handled and provide consistent quality in information retrieval.
IVR systems are used to service high call volumes at lower cost. The use of IVR allows callers' queries to be resolved without a live agent. If callers do not find the information they need, the calls may be transferred to a live agent. The approach allows live agents to have more time to deal with complex interactions. When an IVR system answers multiple phone numbers, the use of DNIS ensures that the correct application and language is executed. A single large IVR system can handle calls for thousands of applications, each with its own phone numbers and script.
Call centers use IVR systems to identify and segment callers. The ability to identify customers allows services to be tailored according to the customer profile. The caller can be given the option to wait in the queue, choose an automated service, or request a callback. The system may obtain caller line identification (CLI) data from the network to help identify or authenticate the caller. Additional caller authentication data could include account number, personal information, password and biometrics (such as voice print). IVR also enables customer prioritization. In a system wherein individual customers may have a different status, the service will automatically prioritize the individual's call and move customers to the front of a specific queue.
IVRs will also log call detail information into its own database for auditing, performance report, and future IVR system enhancements. CTI allows a contact center or organization to gather information about the caller as a means of directing the inquiry to the appropriate agent. CTI can transfer relevant information about the individual customer and the IVR dialog from the IVR to the agent desktop using a screen-pop, making for a more effective and efficient service. Voice-activated dialing (VAD) IVR systems are used to automate routine inquiries to a switchboard or PABX (Private Automatic Branch exchange) operators, and are used in many hospitals and large businesses to reduce the caller waiting time. An additional function is the ability to allow external callers to page staff and transfer the inbound call to the paged person. IVR can be used to provide a more sophisticated voice mail experience to the caller.
Banking institutions are reliant on IVR systems for customer engagement and to extend business hours to a 24/7 operation. Telephone banking allows customers to check balances and transaction histories as well as to make payments and transfers. As online channels have emerged, banking customer satisfaction has decreased.
IVR systems are used by pharmaceutical companies and contract research organizations to conduct clinical trials and manage the large volumes of data generated. The caller will respond to questions in their preferred language and their responses will be logged into a database and possibly recorded at the same time to confirm authenticity. Applications include patient randomization and drug supply management. They are also used in recording patient diaries and questionnaires.
IVR systems allow callers to obtain data relatively anonymously. Hospitals and clinics have used IVR systems to allow callers to receive anonymous access to test results. This is information that could easily be handled by a person but the IVR system is used to preserve privacy and avoid potential embarrassment of sensitive information or test results. Users are given a passcode to access their results.
Some of the largest installed IVR platforms are used for televoting on television game shows, such as Pop Idol and Big Brother, which can generate enormous call spikes. The network provider will often deploy call gapping in the PSTN to prevent network overload. IVR may also be used by survey organizations to ask more sensitive questions where the investigators are concerned that a respondent might feel less comfortable providing these answers to a human interlocutor (such as questions about drug use or sexual behavior). In some cases, an IVR system can be used in the same survey in conjunction with a human interviewer.
By allowing low-literacy populations to interact with technology, IVR systems form an avenue to build technological skills in developing countries. Developing countries have a prevalence of mobile phones even in rural areas, which allows room for IVR technology to support social good projects. However, most IVR technology is designed in resource-rich domains hence research is necessary to contextualize and adapt this technology for developing countries. Research in ICTD has helped tailor IVR towards social impact has created innovative applications in health, agricultural, entertainment and citizen journalism.
In rural India, it is critical for farmers to obtain information early. Although television and radio have made it easy to spread information in remote areas, farmers need community support to transform these messages into actionable advice. One of the early research projects in ICTD and IVR was Avaaj Otalo. This project was stemmed out of a research project in 2009. In Avaaj Otalo, farmers could receive information by dialing a phone number and navigating through simple audio prompts. They also had the ability to record questions for their peers or local NGO staff. This research project has hence spun off as a company called Awaaz.de a social enterprise that works with developmental organizations by providing tools for them to work with marginalized users.
In the context of tuberculosis, patients need to adhere to the medicine daily basis for a period of few months to completely heal. In public sector, there is a scheme called DOTS (Directly Observed Therapy Short Course) which was the most effective source for poor population. However, this method requires the patient to commute to the clinic everyday which adds financial and time constraints to the patient.
99DOTS is a project that uses good ICTD principles to use IVR technology to benefit TB patients. Patients have a customized packet of tablets that they receive from the healthcare official who trains them to take the medicine in the sequence daily. Opening the packet in a sequence reveals a phone number that the patient needs to dial to acknowledge that they have taken the medicine. This research project was based out of Microsoft Research India by Bill Theis and who received MacArthur Fellowship for the project. The project has spun off as Everwell Technologies which now works closely with the Government of India to scale this technology to patients throughout India.
Although radio is a very popular means of entertainment, IVR provides interactivity, which can help listeners engage in novel ways using their phones. ICTD research has used IVR entertainment as a mechanism to support communities and provide information to populations that are hard to reach by traditional methods.
- Sangeet Swara: voice-based singing platform for low literate users in India. Although this platform was for a broader audience, it saw large participation from visually impaired people.
- Gurgaon Idol: was a singing competition used voice system, where users could vote and sing to a number presented on radio.
- Polly: A voiced based viral entertainment system that allowed users to modify their voice and share it with their contacts. The authors used the virality to play relevant job advertisements for literate population. Polly's model for entertainment has been adapted to spread information about maternal health for fathers, agriculture and community generated content.
IVR has been used for community generated content which NGOs and social organizations can tailor to spread relevant content to hard to reach population.
- Graam Vanni: meaning 'voice of the village', is a social technology company incubated out of IIT Delhi which uses IVR as the main medium. Mobile Vaani is a product of this company which connects to hard to reach in northern India with development messages, employment alerts, entrepreneurial activities, and also conduct market research studies. Mobile Vaani network caters to 500,000 households in northern India. Graam Vaani has impacted 2.5 million house holds since it started.
- CGnet swara: A community-generated journalism platform that provided rural populations of people in the forests of Central Tribal India to broadcast their grievances. The system was moderated by editors who listened to these messages and later transcribed these messages onto a blog.
The introduction of Session Initiation Protocol (SIP) means that point-to-point communications are no longer restricted to voice calls but can now be extended to multimedia technologies such as video. IVR manufacturers have extended their systems into IVVR (interactive voice and video response), especially for the mobile phone networks. The use of video gives IVR systems the ability to implement multimodal interaction with the caller.
The introduction of full-duplex video IVR in the future will allow systems the ability to read emotions and facial expressions. It may also be used to identify the caller, using technology such as Iris scan or other biometric means. Recordings of the caller may be stored to monitor certain transactions and can be used to reduce identity fraud.
SIP contact centerEdit
With the introduction of SIP contact centers, call control in a SIP contact center can be implemented by CCXML scripting, which is an adjunct to the VXML language used to generate modern IVR dialogues. As calls are queued in the SIP contact center, the IVR system can provide treatment or automation, wait for a fixed period, or play music. Inbound calls to a SIP contact center must be queued or terminated against a SIP end point; SIP IVR systems can be used to replace agents directly by the use of applications deployed using BBUA (back-to-back user agents).
Interactive messaging response (IMR)Edit
Due to the introduction of instant messaging (IM) in contact centers, agents can handle up to 6 different IM conversations at the same time, which increases agent productivity. IVR technology is being used to automate IM conversations using existing natural language processing software. This differs from email handling as email automated response is based on key word spotting and IM conversations are conversational. The use of text messaging abbreviations and smilies requires different grammars to those currently used for speech recognition. IM is also starting to replace text messaging on multimedia mobile handsets.
Hosted vs. on-premises IVREdit
With the introduction of web services into the contact center, host integration has been simplified, allowing IVR applications to be hosted remotely from the contact center. This has meant hosted IVR applications using speech are now available to smaller contact centers across the globe and has led to an expansion of ASP (application service providers).
IVR applications can also be hosted on the public network, without contact center integration. Services include public announcement messages and message services for small business. It is also possible to deploy two-prong IVR services where the initial IVR application is used to route the call to the appropriate contact center. This can be used to balance loading across multiple contact centers or provide business continuity in the event of a system outage.
IVR has historically received criticism for its difficulty of use and a lack of appreciation of the caller's needs as well as objections to providing a voice response to an automated system. However, modern IVR systems are able to include caller context and provide personalized options. Companies have also been criticized for using IVR to reduce operational costs as the solution replaces the need for human agents to address voice inquiries. Additionally, as basic information is now available online, the calls coming into a call center are more likely to be complex problems and not ones that can be resolved in an automated fashion, thus requiring the attention of a live agent.
- Automated attendant
- Automatic call distributor
- Automatic number identification
- Call avoidance
- Call whisper
- Dialog system
- Dual-tone multi-frequency (DTMF)
- Electronic patient-reported outcome
- Natural language
- Speech recognition
- Speech synthesis
- Voice portal
- The Voder
- Voice-based marketing automation
- Voice user interface
- Tolentino, Jamie. "Enhancing customer engagement with interactive voice response". The Next Web.
- Khasnabish, Bhumip (2003-05-30). Implementing Voice Over IP. Lexington, Massachusetts, USA: John Wiley & Sons, Inc. p. 203. ISBN 9780471216667. Retrieved 21 March 2012.
- Harrington, Anthony. "History of a business revolution at the end of a phone". Scotland On Sunday.
- Dave Roos. "How Interactive Voice Response (IVR) Works". How Stuff Works.
- "Voice Extensible Markup Language (VoiceXML) Version 2.1". W3C.
- "Voice Browser Call Control: CCXML Version 1.0". W3C.
- "Speech Recognition Grammar Specification Version 1.0". W3C.
- "Speech Synthesis Markup Language (SSML) Version 1.0". W3C.
- Suendermann, David (2011). Advances in Commercial Deployment of Spoken Dialog Systems. Berlin: Springer Science+Business Media. pp. 9–11. ISBN 9781441996107.
- Perez-Marin, Diana (2011). Conversational Agents and Natural Language Interaction: Techniques and Effective Practices. Hershey, Pennsylvania: IGI Global. p. 340. ISBN 9781441996107.
- "Presentation of Information - Aurally". W3C. Retrieved 26 October 2016.
- Comes, Sherry. "Interactive Voice Response (IVR): The missing link". IT Pro Portal.
- Lam MY, Lee H, Bright R, Korzenik JR, Sands BE (2009). "Validation of interactive voice response system administration of the Short Inflammatory Bowel Disease Questionnaire". Inflamm. Bowel Dis. 15 (4): 599–607. doi:10.1002/ibd.20803. PMID 19023897.
- "Unesco Guidelines for Digital Inclusion" (PDF). Unesco.
- "Information and communication technologies for development", Wikipedia, 2019-03-03, retrieved 2019-03-04
- Patel, Neil; Chittamuru, Deepti; Jain, Anupam; Dave, Paresh; Parikh, Tapan S. (2010). "Avaaj Otalo: A Field Study of an Interactive Voice Forum for Small Farmers in Rural India". Proceedings of the SIGCHI Conference on Human Factors in Computing Systems. CHI '10. New York, NY, USA: ACM: 733–742. doi:10.1145/1753326.1753434. ISBN 9781605589299.
- "Awaaz.De | Mobile Solutions for Social Impact". awaaz.de. Retrieved 2019-03-04.
- "Directly observed treatment, short-course", Wikipedia, 2018-11-03, retrieved 2019-03-04
- "99DOTS". www.99dots.org. Retrieved 2019-03-04.
- "Bill Thies - MacArthur Foundation". www.macfound.org. Retrieved 2019-03-04.
- "Everwell". www.everwell.org. Retrieved 2019-03-04.
- Vashistha, Aditya; Cutrell, Edward; Borriello, Gaetano; Thies, William (2015). "Sangeet Swara: A Community-Moderated Voice Forum in Rural India". Proceedings of the 33rd Annual ACM Conference on Human Factors in Computing Systems. CHI '15. New York, NY, USA: ACM: 417–426. doi:10.1145/2702123.2702191. ISBN 9781450331456.
- Koradia, Zahir; Aggarwal, Piyush; Seth, Aaditeshwar; Luthra, Gaurav (2013). "Gurgaon Idol: A Singing Competition over Community Radio and IVRS". Proceedings of the 3rd ACM Symposium on Computing for Development. ACM DEV '13. New York, NY, USA: ACM: 6:1–6:10. doi:10.1145/2442882.2442890. ISBN 9781450318563.
- Raza, Agha Ali; Pervaiz, Mansoor; Milo, Christina; Razaq, Samia; Alster, Guy; Sherwani, Jahanzeb; Saif, Umar; Rosenfeld, Roni (2012). "Viral Entertainment As a Vehicle for Disseminating Speech-based Services to Low-literate Users". Proceedings of the Fifth International Conference on Information and Communication Technologies and Development. ICTD '12. New York, NY, USA: ACM: 350–359. doi:10.1145/2160673.2160715. ISBN 9781450310451.
- "Agha Ali Raza". aghaaliraza.com. Retrieved 2019-03-04.
- "gramvaani | community-powered-technology". Retrieved 2019-03-04.
- "Mobile Vaani - A Voice Based Social Network for Rural India". mobilevaani.in. Retrieved 2019-03-04.
- Mudliar, Preeti; Donner, Jonathan; Thies, William (2012). "Emergent Practices Around CGNet Swara, Voice Forum for Citizen Journalism in Rural India". Proceedings of the Fifth International Conference on Information and Communication Technologies and Development. ICTD '12. New York, NY, USA: ACM: 159–168. doi:10.1145/2160673.2160695. ISBN 9781450310451.
- "Goodbye IVR... Hello Visual IVR". No Jitter.
- "Chat Bots Are Cool, But Will They Replace Humans?". CMS Wire.