Responsible Consumption and production


Policy on ethical sourcing of food and supplies Evidence
Policy on waste disposal Covering hazardous materials Evidence
Policy on waste disposal – To measure the amount of waste sent to landfill and recycled Evidence
Policies around use minimization – Of plastic Evidence
Policies around use minimisation – Of disposable items Evidence
Publication of sustainability report Evidence


 “Charting a Sustainable Future: Responsible Consumption and Production for All”


“Elevating Agriculture: Remote Farm Management with Innovative Software”

In the years 2021-2022, Ms. Mirzoeva M. is leading an ambitious project aimed at revolutionizing agriculture. The project’s central mission is to develop a cutting-edge remote control system that enhances the process of growing agricultural products.

The essence of this initiative lies in leveraging technology to empower farmers and make agriculture more efficient and productive. By creating a software product for remote farm management, the project seeks to provide farmers with the tools they need to monitor and optimize the growth of their crops and livestock.

By improving the efficiency and productivity of agricultural processes, it contributes to ensuring food security and promoting sustainable agriculture practices. Additionally, it supports other SDGs related to responsible consumption, industry innovation, and the sustainable use of land and resources.

In essence, this project represents a significant leap forward in modernizing agriculture, making it more sustainable, productive, and accessible. It envisions a future where technology and innovation are harnessed to address global challenges, ensuring a world where hunger is eradicated, and agriculture is a cornerstone of sustainable development.


“Innovating Robotics for Diverse Applications in Extraordinary Circumstances”

Mr. Shakhobiddinov A.Sh. embarked on a visionary project dedicated to the creation of a highly versatile and multifunctional robot, designed for extraordinary situations. This remarkable robot is engineered to perform a wide range of functions, from remote, encrypted communication to manipulation of various tasks via a robotic arm. It boasts the ability to accurately identify the type and dimensions of distant metal objects, measure object temperatures remotely, and even provide a convenient user interface for operators.

This project not only pushes the boundaries of robotics but also plays a crucial role in addressing a variety of challenging scenarios, including those related to security, exploration, and extreme environments. The multifunctional robot serves as a testament to human innovation, enabling us to harness technology to solve complex problems.

Incorporating cutting-edge features like encrypted communication and precise measurements from a distance, this project also aligns with Sustainable Development Goal 9, “Industry, Innovation, and Infrastructure.” By developing multifunctional robotics, it contributes to advancements in technology and innovation, fostering a world where science and technology can address complex challenges.

Ultimately, this project showcases how innovation in robotics can be harnessed to provide solutions in extraordinary situations, offering a glimpse of the future where technology serves as a valuable tool for safety, exploration, and problem-solving.

Development of software and hardware for a water resource monitoring based on IoT concept

In the years 2022-2023, Mr. Mahmudjanov S. is spearheading an innovative project dedicated to the development of software and hardware solutions for water resource monitoring. Embracing the Internet of Things (IoT) concept, this initiative represents a pivotal step forward in the sustainable management of water resources.

At its core, this project envisions a future where water resources are managed efficiently, ensuring access to clean and safe water for communities while promoting responsible environmental stewardship. By combining cutting-edge software and hardware, it enables real-time monitoring of water resources, making data-driven decision-making a reality.

Harnessing IoT technology for water resource monitoring, the project contributes to the global effort to provide universal access to clean water and improve water quality. Additionally, it supports other SDGs related to sustainable environmental practices and resilient infrastructure.

Ultimately, the project seeks to redefine the way we manage and safeguard our precious water resources. It exemplifies how technology can be harnessed for the greater good, ensuring that clean and safe water is accessible to all, while simultaneously protecting the environment for future generations.