Approaches for Enhancing Security with Motion Sensors

Approaches for Enhancing Security with Motion Sensors

Common Risks of Improper Door Use

The integration of motion sensors in garage doors has become an increasingly popular approach to enhancing security, offering a multitude of benefits that make it an attractive option for homeowners. As technology advances, the need for more sophisticated and reliable security measures grows. Modern garage doors often include smart features for remote access garage door spring repair near me weather. Motion sensors present a modern solution that not only improves safety but also adds convenience to everyday life.


At the core of their benefit is the ability of motion sensors to detect any movement around the garage area. This capability serves as a deterrent against potential intruders. When unauthorized movement is detected, the system can trigger alarms or send real-time alerts to the homeowner's smartphone or security service, enabling quick response actions. This immediate notification system is invaluable in preventing burglaries and ensuring peace of mind when away from home.


Beyond intruder detection, motion sensors contribute significantly to accident prevention within and around the garage space. For families with children or pets, garages can pose several hazards due to heavy doors and moving vehicles. Motion sensors help mitigate these risks by automatically halting door operation if they detect any unexpected presence while closing. This feature minimizes the chances of injuries or damages, thereby creating a safer environment for all household members.


In addition to enhancing safety, motion sensors offer substantial convenience and energy efficiency benefits. They can be programmed to automatically open or close garage doors as one approaches or leaves, eliminating the need for remote controls or manual operation. This hands-free functionality is especially useful during inclement weather when stopping to manually operate a garage door can be cumbersome.


Furthermore, some advanced systems are equipped with smart technology that integrates with home automation systems. These systems can manage lighting within and outside the garage based on movement detection, optimizing energy use by ensuring lights are only on when needed. Such smart solutions contribute not just to enhanced security but also reduce overall energy consumption and costs.


Overall, incorporating motion sensor technology into garage door systems represents a holistic approach to modern home security-offering protection against intruders while also promoting safety and convenience for daily activities. As more homeowners seek efficient ways to safeguard their properties without compromising comfort and ease-of-use, motion sensors stand out as an effective measure that meets these needs comprehensively. With ongoing advancements in sensor technologies and smart home integration, their role in residential security will likely expand even further in the years ahead.

Potential Hazards from Inadequate Installation —

In an era where security is paramount, enhancing the safety of one's home and property has become a primary concern for many homeowners. Among the various approaches to boosting security, integrating motion sensors into garage door systems stands out as an effective method. Understanding the types of motion sensors suitable for this purpose is crucial to maximizing their potential benefits.


Motion sensors are devices that detect movement within a specified area and can trigger alerts or actions in response. When it comes to garage door systems, these sensors not only enhance security but also contribute to convenience and energy efficiency. Several types of motion sensors are particularly well-suited for use with garage doors, each offering unique advantages.


One of the most common types of motion sensors used in garage door systems is the passive infrared (PIR) sensor. PIR sensors are adept at detecting changes in infrared radiation levels that occur when a warm body, such as a person or vehicle, enters their field of view. These sensors are valued for their accuracy and reliability, making them ideal for detecting unauthorized entries or movements around the garage area.


Another type often employed is ultrasonic motion sensors. These devices emit sound waves that bounce off objects and return to the sensor; any change in frequency indicates movement. Ultrasonic sensors are highly sensitive and can cover large areas, making them suitable for expansive garages or driveways.


Microwave motion sensors operate on similar principles but use microwave pulses instead of sound waves. They can penetrate non-metallic objects and have a greater range than PIR sensors, offering robust security coverage even through walls or doors. This ability makes them excellent choices for detecting intruders before they reach vulnerable points like windows or secondary entrances connected to garages.


Dual-technology motion sensors combine two different sensing technologies-typically PIR and microwave-to minimize false alarms while ensuring high detection accuracy. By requiring both types of detection to trigger an alarm, dual-technology sensors provide enhanced reliability in environments prone to temperature fluctuations or other factors that might cause single-sensor errors.


For those seeking advanced solutions, smart motion detectors integrated with IoT platforms offer real-time monitoring and remote control capabilities via smartphones or other connected devices. These systems allow homeowners to receive instant alerts about suspicious activities near their garages regardless of their physical location.


Implementing these various types of motion sensors into garage door systems not only bolsters security by deterring potential intruders but also enhances convenience by automating everyday tasks like opening doors when approaching vehicles are detected.


In conclusion, selecting appropriate motion sensors tailored specifically for garage door applications plays an essential role in fortifying residential security measures effectively while adding layers of functionality beyond basic intrusion detection alone-a wise investment towards safeguarding both home assets and personal peace-of-mind alike!

Advancements in garage door safety features for modern homes

As we progress further into the 21st century, the realm of home automation continues to evolve and expand, with garage door safety features emerging as a crucial component in modern home design.. This shift is driven by an increasing demand for security, convenience, and energy efficiency among homeowners.

Advancements in garage door safety features for modern homes

Posted by on 2025-01-01

How to ensure proper installation of auto-reverse sensors

Ensuring the proper installation of auto-reverse sensors is crucial for the safety and functionality of modern automated systems, particularly in garage doors, elevators, and industrial machinery.. These sensors play a vital role in preventing accidents by detecting obstructions and reversing the operation to avoid potential harm.

How to ensure proper installation of auto-reverse sensors

Posted by on 2025-01-01

Evaluating tamper-resistant locking mechanisms for garage doors

When considering the security of your home, the garage door often becomes an overlooked point of vulnerability.. Yet, it serves as a significant entryway into your home and necessitates as much attention to security detail as any other door or window.

Evaluating tamper-resistant locking mechanisms for garage doors

Posted by on 2025-01-01

Importance of Professional Installation and Maintenance

In recent years, the integration of motion sensors with existing garage door technology has emerged as a promising approach to enhancing home security. As garages often serve as secondary entry points to homes or store valuable items, ensuring their security is crucial. The seamless fusion of motion sensor technology with traditional garage systems not only bolsters security but also offers homeowners peace of mind.


Motion sensors operate by detecting movement within a specified range and triggering an alert or response when motion is detected. When integrated with garage door systems, these sensors can provide real-time notifications to homeowners about any unauthorized attempts to access the garage. This proactive alert system allows for immediate action, whether it's contacting authorities or remotely controlling the garage door through smart home applications.


One of the primary approaches to integrating motion sensors involves connecting them to a smart home ecosystem. Many modern homes are equipped with smart hubs that manage various devices, from lights to thermostats. By incorporating motion sensors into this network, homeowners can create automated routines that enhance security measures. For instance, if a sensor detects movement in the driveway during late hours, it could activate external lights and send an alert directly to the homeowner's smartphone.


Another method focuses on using advanced analytics and machine learning algorithms with motion sensors. These technologies can discern between normal movements-such as family members entering and exiting-and suspicious activity that might indicate a potential intruder. Over time, these systems become more adept at identifying patterns and reducing false alarms, which are often cited as a drawback of basic motion detection systems.


Moreover, integrating video surveillance with motion sensor technology can significantly elevate security levels. Cameras activated by sensor alerts can provide visual confirmation of any disturbance, allowing homeowners to assess situations accurately before taking action. This combination not only deters potential intruders but also provides valuable evidence in case of incidents.


While integrating motion sensors into existing garage door technology holds great promise for enhancing security, it is essential for users to consider privacy concerns and ensure data protection measures are in place. Regular updates and maintenance of both hardware and software components are necessary to safeguard against vulnerabilities.


In conclusion, leveraging motion sensors within garage door technologies presents an innovative approach towards fortifying home security systems. By embracing advancements such as smart integrations and AI-driven analytics, homeowners can transform their garages from potential weak spots into fortified assets within their overall security strategy. As technology continues to evolve, so too will the capabilities of these integrated systems-offering ever-more sophisticated solutions for safeguarding our homes and possessions.

Importance of Professional Installation and Maintenance

Warning Signs of Malfunctioning Garage Doors

In today's rapidly evolving world, security concerns are paramount for homeowners and businesses alike. One of the most effective tools in enhancing security is the use of motion sensors, particularly in garage environments where valuable items are often stored. Installing motion sensors in garages not only deters potential intruders but also provides peace of mind to property owners. To maximize their effectiveness, it is essential to adhere to certain best practices.


Firstly, selecting the appropriate type of motion sensor is crucial. There are various kinds available on the market, including passive infrared (PIR), ultrasonic, and dual technology sensors. For a garage environment, PIR sensors are often recommended due to their ability to detect heat emitted by moving objects. This makes them less prone to false alarms compared to ultrasonic sensors that might be triggered by non-human movements such as swaying tree branches or small animals.


Once the right sensor is chosen, strategic placement becomes key. Ideally, motion sensors should be installed at points of entry such as doors and windows. Positioning them at a height of six to eight feet above the ground ensures optimal coverage while minimizing blind spots. It's also beneficial to angle the sensor slightly downward to better capture motion across a wider area.


Another critical aspect is ensuring proper calibration and sensitivity settings. Motion sensors must be adjusted according to the specific needs of the environment they monitor. In a garage setting, it's important that they can distinguish between human movement and that of pets or small animals that may inadvertently trigger an alert. Most modern sensors allow for adjustable sensitivity levels; hence testing these settings under different conditions can help achieve accurate detection without frequent false alarms.


Equally important is integration with other security systems. Motion sensors should ideally be part of a broader security network that includes cameras, alarms, and smart lighting systems. When integrated effectively, this network can provide comprehensive monitoring and rapid response capabilities in case of unauthorized access attempts.


Regular maintenance checks cannot be overlooked when considering best practices for installing motion sensors in garages. Dust accumulation or obstruction by objects can impair functionality over time. Regularly cleaning the lenses and ensuring no obstacles block the sensor's field of view will maintain its efficiency.


Lastly, leveraging smart technology adds another layer of convenience and efficacy in using motion sensors for security enhancement. Many modern systems offer app-based controls allowing homeowners remote access via smartphones or tablets to receive alerts and monitor activities within their garage space from anywhere.


In conclusion, installing motion sensors in garage environments requires thoughtful consideration regarding type selection, strategic placement, sensitivity calibration, system integration, maintenance routines, and smart technology utilization. By adhering to these best practices, homeowners can significantly enhance their security measures against potential threats while enjoying greater peace of mind regarding their property's safety.

Safety Tips for Homeowners Using Garage Doors

In an age where security is a paramount concern, the implementation of motion sensors has emerged as a vital strategy for safeguarding properties and ensuring peace of mind. However, deploying these devices effectively involves overcoming a series of common challenges. By addressing these obstacles with innovative approaches, we can significantly enhance security systems and maximize the potential of motion sensor technology.


One of the primary challenges in implementing motion sensors is dealing with false alarms. These can be triggered by innocuous movements such as pets or falling leaves, leading to unnecessary alerts that can desensitize users to actual threats. To mitigate this issue, advanced calibration techniques and machine learning algorithms are being employed. These technologies help distinguish between benign activities and genuine security breaches by analyzing movement patterns and environmental cues more accurately.


Another challenge lies in the strategic placement of motion sensors to ensure comprehensive coverage without creating blind spots. This requires a deep understanding of the environment in which they are deployed. Employing spatial analysis tools and simulations during the planning phase can help identify optimal locations for sensors, ensuring that all vulnerable points are monitored effectively.


Moreover, environmental factors such as weather conditions and temperature fluctuations can affect sensor performance. For instance, extreme temperatures might impact battery life or sensor sensitivity. Addressing this requires choosing robust hardware designed to withstand harsh conditions and implementing regular maintenance schedules to ensure devices remain fully operational.


Integration with existing security systems is another hurdle that many face when implementing motion sensors. The complexity often arises from compatibility issues between different technologies and platforms. To overcome this barrier, adopting standardized communication protocols like Zigbee or Z-Wave can facilitate seamless integration across various devices, allowing for more cohesive security ecosystems.


Privacy concerns also pose significant challenges in motion sensor deployment, particularly in residential settings where individuals value their personal space. Ensuring data protection through encryption and establishing clear policies regarding data usage are essential steps towards building trust with users while still benefiting from enhanced security measures.


Finally, cost considerations often influence decision-making processes related to security enhancements. While high-end sensors offer superior features, they may not always be feasible for everyone's budget. Balancing cost-effectiveness with functionality necessitates careful evaluation of specific needs against available options.


In conclusion, while there are numerous challenges associated with implementing motion sensors for enhanced security purposes-ranging from technical issues like false alarms to broader concerns such as privacy-there are equally effective strategies available to address them. By leveraging technological advancements alongside thoughtful planning and integration efforts, it is possible to optimize the use of motion sensors within any security framework successfully. As we continue exploring new solutions tailored specifically towards overcoming these hurdles, the future looks promising for even more secure environments powered by sophisticated sensor technology.

In today's rapidly evolving technological landscape, ensuring the security of our homes and businesses has become more critical than ever. One of the most effective tools in this quest for enhanced security is the motion sensor. These devices, with their ability to detect movement and trigger alarms or notifications, serve as vigilant sentinels against potential intruders. However, like all technology, motion sensors require regular maintenance and troubleshooting to ensure they perform optimally.


To maintain motion sensors for peak performance, it is essential first to understand their placement's significance. Positioning these sensors correctly can make a world of difference in their effectiveness. Ideally, they should be installed at strategic points where they have an unobstructed view of areas needing surveillance. Regularly inspecting these placements and ensuring that no objects are blocking the sensor's field of vision is a fundamental maintenance task.


Cleaning plays a crucial role in maintaining motion sensors as well. Dust and grime can accumulate on sensor lenses over time, potentially impairing their ability to detect movement accurately. A simple cleaning routine using a soft cloth can help prevent false alarms caused by such obstructions.


A less obvious but equally important aspect of maintenance is testing the sensors regularly. This involves simulating movements within the sensor's range to verify that it triggers appropriately. Most modern systems come with built-in test modes designed specifically for this purpose. Engaging these test modes periodically helps ensure that the system remains responsive and reliable.


When it comes to troubleshooting, several common issues might arise with motion sensors. False alarms are perhaps the most frequent problem users encounter. These can occur due to various factors such as pets moving within the detection area or changes in environmental conditions like temperature fluctuations or drafts causing curtains or plants to move unexpectedly.


To address false alarms, users can adjust sensitivity settings on their devices if available or refine the positioning of sensors to minimize interference from non-threatening sources. Additionally, many modern systems offer pet-immune features designed specifically to distinguish between human intruders and smaller animals.


Another possible issue could be connectivity problems with smart home systems where motion sensors fail to communicate effectively with other devices or apps due to network issues. Ensuring that firmware updates are applied promptly can often resolve such connectivity challenges since updates typically include improvements for compatibility and performance.


In conclusion, while motion sensors are invaluable allies in enhancing security through vigilant monitoring of any suspicious activity around our premises, they require regular care and attention like any other piece of technology we rely upon daily. By adopting proactive maintenance practices-such as proper placement checks cleaning routines regular testing-and by being prepared for troubleshooting common issues-like addressing false alarms adjusting settings updating firmware-we empower ourselves not just with efficient functioning equipment but also peace-of-mind knowing our security measures remain robust against potential threats lurking beyond sightlines guarded by these silent yet watchful guardians called motion sensors.

In an era where technology continues to evolve at a breakneck pace, motion sensor technology stands out as a pivotal component in enhancing security systems. As we look towards the future, the integration of advanced motion sensors promises not just incremental improvements but transformative changes in how we approach security across various domains.


Traditionally, motion sensors have been used primarily for detecting unauthorized movements within a specified area. These conventional systems often relied on basic infrared or ultrasonic technologies to identify movement and trigger alarms. However, as threats become more sophisticated, so too must our approaches to counter them. Future trends in motion sensor technology are poised to address these challenges through increased sensitivity, smarter analytics, and greater integration with other security technologies.


One of the most promising advancements is the incorporation of artificial intelligence and machine learning into motion sensor systems. By leveraging AI, these sensors can learn over time to distinguish between normal activity patterns and potential threats. For instance, a system could differentiate between a pet moving around inside a home and an intruder attempting to gain entry. This level of intelligent analysis significantly reduces false alarms and enhances the overall reliability of security systems.


Moreover, the development of multi-sensor fusion technology is set to revolutionize how we utilize motion sensors for security purposes. By combining data from multiple types of sensors-such as cameras, microphones, thermal sensors, and even environmental detectors-security systems can create a comprehensive understanding of their environment. This holistic approach allows for better decision-making processes when identifying potential threats or anomalies.


Another exciting trend is the miniaturization and portability of motion sensors. As these devices become smaller yet more powerful, they open up new possibilities for deployment in previously inaccessible areas. Portable motion sensors can be easily integrated into wearable devices or drones for real-time surveillance across vast or complex environments such as large industrial sites or remote border areas.


The integration of Internet of Things (IoT) capabilities further expands the functionality of motion sensors in security applications. IoT-enabled sensors can communicate seamlessly with other connected devices within a smart ecosystem. This interconnectedness facilitates instant notifications to users via smartphones or other digital platforms when unusual activities are detected.


Privacy concerns also play an increasingly critical role in shaping future trends in motion sensor technology for enhanced security. Manufacturers are now focusing on developing solutions that ensure data protection while maintaining high levels of accuracy and efficiency. Techniques such as edge computing allow data processing to occur locally on devices rather than being transmitted over potentially insecure networks.


In conclusion, future trends in motion sensor technology promise significant advancements that will redefine our approach towards enhancing security measures globally. Through AI-driven analytics, multi-sensor fusion capabilities, miniaturization efforts coupled with IoT integrations-and mindful consideration regarding privacy-motion sensor technologies are well-equipped to meet evolving security needs head-on while providing robust solutions tailored specifically towards safeguarding assets effectively against emerging threats.

Energy efficiency may refer to:

  • Energy efficiency (physics), the ratio between the useful output and input of an energy conversion process
    • Electrical efficiency, useful power output per electrical power consumed
    • Mechanical efficiency, a ratio of the measured performance to the performance of an ideal machine
    • Thermal efficiency, the extent to which the energy added by heat is converted to net work output or vice versa
    • Luminous efficiency, a measure of how well a light source produces visible light
    • Fuel efficiency, the efficiency of converting potential energy in a fuel into kinetic energy
    • Energy efficiency in transportation, the fuel economy of various modes of transportation
    • Energy-efficient landscaping, a type of landscaping designed for the purpose of conserving energy
  • Efficient energy use, minimizing the amount of energy used for a given, constant energy service
  • Energy conservation, reducing energy consumption by using less of an energy service

See also

[edit]
  • Energy (disambiguation)
  • Efficiency (disambiguation)
  • Energy rating (disambiguation)
  • All pages with titles containing Energy efficiency
  • All pages with titles containing Energy efficient
A DMV clerk helps a customer with paperwork.

Customer service is the assistance and advice provided by a company through phone, online chat, mail, and e-mail to those who buy or use its products or services. Each industry requires different levels of customer service,[1] but towards the end, the idea of a well-performed service is that of increasing revenues. The perception of success of the customer service interactions is dependent on employees "who can adjust themselves to the personality of the customer".[2] Customer service is often practiced in a way that reflects the strategies and values of a firm. Good quality customer service is usually measured through customer retention.

Customer service for some firms is part of the firm’s intangible assets and can differentiate it from others in the industry. One good customer service experience can change the entire perception a customer holds towards the organization.[3] It is expected that AI-based chatbots will significantly impact customer service and call centre roles and will increase productivity substantially.[4][5][6] Many organisations have already adopted AI chatbots to improve their customer service experience.[6][7][5]

The evolution in the service industry has identified the needs of consumers. Companies usually create policies or standards to guide their personnel to follow their particular service package. A service package is a combination of tangible and intangible characteristics a firm uses to take care of its clients.[8]

Customer support

[edit]
Main article: Customer support

Customer support is a range of consumer services to assist customers in making cost-effective and correct use of a product.[9] It includes assistance in planning, installation, training, troubleshooting, maintenance, upgrading, and disposal of a product.[9] These services may even be provided at the place in which the customer makes use of the product or service. In this case, it is called "at home customer service" or "at home customer support." Customer support is an effective strategy that ensures that the customer's needs have been attended to. Customer support helps ensure that the products and services that have been provided to the customer meet their expectations. Given an effective and efficient customer support experience, customers tend to be loyal to the organization, which creates a competitive advantage over its competitors. Organizations should ensure that any complaints from customers about customer support have been dealt with effectively.[10]

Automation and productivity increase

[edit]

Customer service may be provided in person (e.g. sales / service representative), or by automated means,[11] such as kiosks, websites, and apps. An advantage of automation is that it can provide service 24 hours a day which can complement face-to-face customer service.[12] There is also economic benefit to the firm. Through the evolution of technology, automated services become less expensive over time. This helps provide services to more customers for a fraction of the cost of employees' wages. Automation can facilitate customer service or replace it entirely.

A popular type of automated customer service is done through artificial intelligence (AI). The customer benefit of AI is the feel for chatting with a live agent through improved speech technologies while giving customers the self-service benefit.[13] AI can learn through interaction to give a personalized service. The exchange the Internet of Things (IoT) facilitates within devices, lets us transfer data when we need it, where we need it. Each gadget catches the information it needs while it maintains communication with other devices. This is also done through advances in hardware and software technology. Another form of automated customer service is touch-tone phone, which usually involves IVR (Interactive Voice Response) a main menu and the use of a keypad as options (e.g. "Press 1 for English, Press 2 for Spanish").[14]

In the Internet era, a challenge is to maintain and/or enhance the personal experience while making use of the efficiencies of online commerce. "Online customers are literally invisible to you (and you to them), so it's easy to shortchange them emotionally. But this lack of visual and tactile presence makes it even more crucial to create a sense of personal, human-to-human connection in the online arena."[15]

An automated online assistant with avatar providing automated customer service on a web page

Examples of customer service by artificial means are automated online assistants that can be seen as avatars on websites,[12] which enterprises can use to reduce operating and training costs.[12] These are driven by chatbots, and a major underlying technology to such systems is natural language processing.[12]

Metrics

[edit]

The two primary methods of gathering feedback are customer surveys and Net Promoter Score measurement, used for calculating the loyalty that exists between a provider and a consumer.[16]

Instant feedback

[edit]

Many outfits have implemented feedback loops that allow them to capture feedback at point of experience. For example, National Express in the UK has invited passengers to send text messages while riding the bus. This has been shown to be useful, as it allows companies to improve their customer service before the customer defects, thus making it far more likely that the customer will return next time.[17]

See also

[edit]
  • Automated attendant
  • Customer experience management
  • Customer relationship management
  • Customer satisfaction
  • Customer Service Assurance
  • Customer service representative
  • Customer service training
  • Demand chain
  • Interactive voice response
  • Live support software
  • Privacy policy
  • Professional services automation
  • Public Services
  • Sales
  • Sales process engineering
  • Sales territory
  • Service climate
  • Service system
  • Social skills
  • Support automation
  • Technical support
  • Help desk software

References

[edit]
  1. ^ Lucas, Robert (2015). Customer Service Skills For Success. New York: McGraw-Hill. ISBN 978-0-07-354546-2.
  2. ^ Buchanan, Leigh (1 March 2011). "A Customer Service Makeover". Inc. magazine. Retrieved 29 Oct 2012.
  3. ^ Teresa Swartz, Dawn Iacobucci. Handbook of Services Marketing and Management. Thousand Oaks, CA: Sage
  4. ^ Adam, M., Wessel, M. & Benlian, A. AI-based chatbots in customer service and their effects on user compliance. Electron Markets 31, 427–445 (2021). doi:10.1007/s12525-020-00414-7
  5. ^ a b Krishnan, C., Gupta, A., Gupta, A., Singh, G. (2022). Impact of Artificial Intelligence-Based Chatbots on Customer Engagement and Business Growth. In: Hong, TP., Serrano-Estrada, L., Saxena, A., Biswas, A. (eds) Deep Learning for Social Media Data Analytics. Studies in Big Data, vol 113. Springer, Cham. doi:10.1007/978-3-031-10869-3_11
  6. ^ a b "AI-enabled customer service is now the quickest and most effective route for institutions to deliver personalized, proactive experiences that drive customer engagement". New York: McKinsey & Company. March 27, 2023.
  7. ^ Brandon Turpin (August 2, 2023). "How chatbots can provide a better customer experience". IBM.
  8. ^ Bordoloi, Sanjeev (2019). Service Management Operations, Strategy, Information Technology. New York: McGraw-Hill. ISBN 978-1-260-09242-4.
  9. ^ a b businessdictionary.com > customer support Archived 2018-07-23 at the Wayback Machine Retrieved March 2011
  10. ^ Crittenden, Victoria (2020-01-01). "Customer support services: more than administrative support – it has to be strategic!". European Journal of Marketing. 54 (7): 1807–1808. doi:10.1108/EJM-07-2020-972. ISSN 0309-0566. S2CID 225558345.
  11. ^ "10 reasons why AI-powered, automated customer service is the future". ibm.com. 16 October 2017. Retrieved 2020-05-17.
  12. ^ a b c d Kongthorn, Alisa; Sangkeettrakarn, Chatchawal; Kongyoung, Sarawoot; Haruechaiyasak, Choochart (2009). "Implementing an online help desk system based on conversational agent". Bibliometrics Data in: Proceeding, MEDES '09 Proceedings of the International Conference on Management of Emergent Digital EcoSystems. New York, NY, USA: ACM. ISBN 978-1-60558-829-2. doi:10.1145/1643823.1643908
  13. ^ Goebel, Tobias. "Google Duplex's Conversational AI Shows a Path to Better Customer Service". CMSWire.com. Simpler Media Group. Retrieved 2 June 2018.
  14. ^ Tolentino, Jamie (20 April 2015). "Enhancing customer engagement with interactive voice response". The Next Web. Retrieved 2020-05-17.
  15. ^ Solomon, Micah (4 March 2010). "Seven Keys to Building Customer Loyalty--and Company Profits". Fast Company. Retrieved 29 Oct 2012.
  16. ^ Mandal, Pratap Chandra (2014). "Net promoter score: a conceptual analysis". International Journal of Management Concepts and Philosophy. 8 (4): 209. doi:10.1504/ijmcp.2014.066899. ISSN 1478-1484.
  17. ^ "Lunch Lesson Four - Customer service". BBC News. October 3, 2003. Retrieved October 27, 2008.

Further reading

[edit]
  • Krishnan, C., Gupta, A., Gupta, A., Singh, G. (2022). Impact of Artificial Intelligence-Based Chatbots on Customer Engagement and Business Growth. In: Hong, TP., Serrano-Estrada, L., Saxena, A., Biswas, A. (eds) Deep Learning for Social Media Data Analytics. Studies in Big Data, vol 113. Springer, Cham. doi:10.1007/978-3-031-10869-3_11
  • Adam, M., Wessel, M. & Benlian, A. AI-based chatbots in customer service and their effects on user compliance. Electron Markets 31, 427–445 (2021). doi:10.1007/s12525-020-00414-7
  • Hardalov, M., Koychev, I., Nakov, P. (2018). Towards Automated Customer Support. In: Agre, G., van Genabith, J., Declerck, T. (eds) Artificial Intelligence: Methodology, Systems, and Applications. AIMSA 2018. Lecture Notes in Computer Science(), vol 11089. Springer, Cham. doi:10.1007/978-3-319-99344-7_5
  • Roberts, C. and Maier, T. (2024), "The evolution of service toward automated customer assistance: there is a difference", International Journal of Contemporary Hospitality Management, Vol. 36 No. 6, pp. 1914-1925. doi:10.1108/IJCHM-08-2022-1037
  • Suendermann, D., Liscombe, J., Pieraccini, R., Evanini, K. (2010). “How am I Doing?”: A New Framework to Effectively Measure the Performance of Automated Customer Care Contact Centers. In: Neustein, A. (eds) Advances in Speech Recognition. Springer, Boston, MA. doi:10.1007/978-1-4419-5951-5_7
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Reviews for Overhead Door Company of Joliet

Overhead Door Company of Joliet

Jim Chuporak

(5)

Received a notice the morning of telling me when to expect the men to come and put the door in. he was on time, answered all my questions, worked diligently in the cold. And did an absolutely awesome job. Everything was cleaned up, hauled away from the old door. I am extremely happy with the service I received from the first phone call I made through having the door put in. My wife and I are very, very happy with the door.

Overhead Door Company of Joliet

Owen McCarthy

(5)

I called the office just by chance to see if there was an available opening for a service call to repair a busted spring. Unfortunately I didn’t catch the name of the person who answere, but she couldn’t have been more pleasant and polite. She was able to get a tech to my house in an hour. I believe the tech’s name was Mike and he too was amazing. He quickly resolved my issue and even corrected a couple of things that he saw that weren’t quite right. I would recommend to anyone and will definitely call on Middleton for any future needs. Thank you all for your great service.

Overhead Door Company of Joliet

Kelley Jansa

(5)

We used Middleton Door to upgrade our garage door. We had three different companies come out to quote the job and across the board Middleton was better. They were professional, had plenty of different options and priced appropriately. The door we ordered came with a small dent and they handled getting a new panel ordered and reinstalled very quickly.

Overhead Door Company of Joliet

Andrea Nitsche

(4)

Scheduling was easy, job was done quickly. Little disappointed that they gave me a quote over email (which they confirmed was for labor and materials), but when they finished it was just over $30 more. Not a huge deal, but when I asked why, I was told they gave me an approx cost and it depends on what is needed. I get that in general, however, they installed the door and I gave them my address and pics of the existing prior to getting a quote. I feel like they could have been more upfront with pricing. And just a heads up, it was pricey... Had them change the weather stripping, from ringing my doorbell to pulling out my driveway when done was literally 20 mins, cost was just over $260 😬

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Frequently Asked Questions

Motion sensors can enhance garage door security by detecting unauthorized movement near the door, triggering alarms, sending alerts to homeowners, and integrating with smart home systems for real-time monitoring and response.
Infrared (IR) sensors and ultrasonic sensors are commonly used for garage doors. IR sensors detect heat signatures, while ultrasonic sensors measure sound waves; both effectively identify movement within specified areas.
Yes, motion sensor technology can be integrated with video surveillance cameras, smart locks, and alarm systems to create a comprehensive security solution that provides visual verification and instant notifications in case of suspicious activity.