NASA continues to innovate technology for its upcoming Mars mission, integrating advanced systems designed to explore the red planet. One major breakthrough was the development of a more advanced rover, a type of system known as Mars 2020 Perseverance. This rover is equipped with AI technology that enables real-time data analysis, making it easier to search for signs of past life and take soil samples. Viewed from the communications aspect, NASA is also innovating in satellite communications systems. By using relay networks such as the Mars Relay Network, the communication range between the rover and Earth is increased, allowing for faster and more efficient data transmission. Laser and microwave technology is also improving to reduce the possibility of signal loss. Local resource utilization (ISRU) technology was also developed to support the survival of astronauts. An example is the MOXIE (Mars Oxygen In-Situ Resource Utilization Experiment) system which can produce oxygen from carbon dioxide in the Martian atmosphere. With this technology, future missions can reduce dependence on fuel brought from Earth. Technological robots will also play a big role in future missions. NASA is developing drones such as Ingenuity, which is designed to explore areas hard to reach with rovers. These drones can collect data and conduct aerial surveys, providing a more comprehensive picture of the Martian surface for planning further research. Security aspects are also a major focus in Mars mission technology. Advanced radiation shielding systems are designed to protect astronauts from exposure to high levels of space radiation. Several innovative materials, such as polyethylene, are an option because they can absorb radiation effectively. NASA is also investing in space base technology, serving as a base for long-term missions. The concept of Sustainable Human Presence on Mars seeks to create a habitat that can support life on the red planet. This habitat is designed to minimize risks and support astronauts’ health during their stay on Mars. Finally, the integration of robotics and human technology is the focus. Using robots to assist in heavy and dangerous tasks will increase mission efficiency. Telepresence technology allows astronauts on Earth to control robots on Mars, minimizing risks and increasing exploration effectiveness. With all these innovations, NASA continues to solidify its path towards more ambitious Mars missions, bringing new hope for future space exploration.