Introduction

There is emergence of sustainability as one fundamental principle within interior design that influences how every space is created as well as utilize. Importance of sustainability lies to promote environmental responsibility that enhances energy efficiency along with fostering healthier and better environments for all occupants. In this framework, pivotal roles are played by lighting control system and daylighting. They optimize energy management with the reduction of reliance upon artificial lighting along with contributing to improved productivity and well-being of occupants. Efficient solutions of lighting align with every sustainable design practice with the minimization of energy consumption, using natural light along with enhancing whole aesthetic of space.

Summarization

This article provides a detailed overview of every contemporary advancement in lighting control system by emphasizing the overall significance within commercial settings. This discusses different technologies that include smart lighting as well as automated control system that improve experience of users and enhance efficiency of energy. The authors in this paper have highlighted daylighting’s role to reduce usage of energy along with its impact upon psychological well-being of occupants, presenting the case to integrate such systems into different commercial designs. Several key techniques have been identified in this article:

• Illuminance-based control: These systems employ different light sensors for monitoring artificial and natural lighting levels, Techniques like proportional integral derivative (PID) control could achieve savings of energy by almost 66% by making significant adjustments to intensity of lighting.
• Occupancy-based control: These systems use sensors, like RFID and passive infrared (PIR) for detecting individuals’ presence in the space. These systems could achieve savings of energy by almost 30% by making sure that there is use of lighting when needed only.
• Strategies of hybrid control: These strategies combine illuminance and occupancy-based techniques by maximizing occupant comfort and energy efficiency. These systems could predict patterns of occupancy along with adjusting lighting that can help to achieve savings of energy by almost 72% in any complex environment.

Design practice

In the previous project while designing wellness center for all students, the importance to create one calming environment which maximizes natural light has been recognized. Reflecting on this article, more sophisticated strategies of daylighting could have been implemented for diffusing sunlight deeper into space along with minimizing glare.

Considering the current project, the aim is showcasing local culture along with empowering every community member. Drawing from insights of this article, the plan is integrating every intelligent lighting control which respond to levels of natural light and occupancy. It can ensure that every space is lit adequately while also conserving energy. Utilizing dimmable fixtures of LED combined with some daylight sensors can allow for some dynamic adjustments of lighting. For this current project, I aim in showcasing local culture along with empowering community member. Considering the article, I plan in integrating intelligent lighting control which responds to occupancy and levels of natural light.

Figure 1: Methods of lighting control

Action to be considered

The decision in adopting such strategies stems from the commitment to social responsibility and sustainability. By employing every energy-efficient technology, operational costs can be reduced and healthier environments can be promoted for employees as well as guests. Implementing such systems demonstrates the commitment to local community with the creation of opportunities of jobs for every individual facing challenge, fostering more inclusive environment. Such strategies could reflect the commitment to local community with the creation of job opportunities along with fostering one inclusive atmosphere.

Figure 2: Energy efficient lighting

Points from article

This study emphasizes that these controls could reduce consumption of energy by almost 70% within commercial buildings (Wagiman et al., 2023). Such statistics underscores this potential for efficient energy savings that reinforces the importance to integrate each technology into different design practices. In addition, this notes that daylight contributes to savings of energy along with enhancing well-being of occupants through improved productivity and mood that is vital in every space designed for any vulnerable population (Wagiman et al., 2023).  

Conclusion

Integration of lighting control system and daylighting within sustainable design’s wider context reveals efficient social, environmental, and economic benefits. Such technologies could reduce consumption of energy drastically that can lead to lower costs of utility along with smaller carbon footprint. In addition, they enhance quality of lives of occupants, demonstrating the commitment to such social sustainability. Trends within lighting design prioritize sustainability increasingly, including adaptive lighting system and biophilic design element. This approach to lighting design would evolve continuously for incorporating such sustainable practices that fosters environments which are resilient as well as supportive of the planet and people.

Reference

Wagiman, K. R., Abdullah, M. N., Hassan, M. Y., Radzi, N. H. M., & Kwang, T. C. (2020). Lighting system control techniques in commercial buildings: Current trends and future directions. Journal of Building Engineering, 31, 101342. https://doi.org/10.1016/j.jobe.2020.101342