Earthquakes are expected to increase in intensity and frequency in regions like Anatolia, Arabia, Persia, and North Africa due to intensive oil extraction over decades. This highlights the need for innovative approaches to effectively address and mitigate the consequences of such seismic events. Here, I propose the development and utilization of tent as a cost-effective and viable alternative to traditional and high-rise cement-based constructions, aiming to reduce earthquake damages. With a rich history in nomadic practices, tents can be strengthened by integrating cutting-edge technologies that make them adaptable, climate-responsive, and earthquake-resistant solutions. By using natural materials like wool and cotton enhanced with waterproof and fireproof properties, tents can provide both comfort and versatility in various weather conditions. The goal of habitation is to furnish a secure and comfortable living space with essential amenities for safety and well-being. Tent-based communities could present an eco-friendly housing alternative and reduce the impact of destructive earthquakes by minimizing debris and rubble. In warm regions, tents can serve as year-round habitable spaces. Establishing tent cities or villages in such areas can effectively mitigate earthquake damages while also promoting sustainability and a healthy lifestyle. Skillfully extrapolating and adapting traditional urban design to tent-based materials could offer the potential to construct fully functional smart-tent cities that provide contemporary living comforts and safeguard against earthquakes and climate challenges. With modern manufacturing capabilities and urban planning, tents can benefit from advanced design principles to deliver safety, comfort, and an enduring ability to weather adverse climate conditions and earthquake damages.