The lobster model has received a lot of attention as a biologically inspired design concept. Whether in the field of biological research or engineering technology, the structure and function of lobsters provide us with valuable inspiration. The lobster is known for its strong shell and flexible limbs, attributes that have given it an important place in the Marine ecosystem.

The lobster's exoskeleton is made of a tough chitin, a material that not only provides strong protection, but also provides some flexibility. When studying its structure, scientists found that the microstructure of the lobster exoskeleton has excellent mechanical properties, which provides an important theoretical basis for the development of new materials. By simulating the structure of lobster shells, the researchers were able to design lighter and stronger man-made materials for applications in aerospace, construction and other fields.

In terms of locomotion, the lobster's limb structure exhibits a high degree of flexibility and coordination. The crayfish's claws are not only used for hunting and defense, but also serve as a power source to propel it freely through the water. This property has attracted the interest of engineers, who are trying to apply the mechanism of this biological movement to the field of robotics. By mimicking the way lobsters move, scientists are developing robots that can move nimbly in complex environments. These robots show great potential in underwater exploration or industrial automation.

In addition, the adaptability of lobsters in terms of survival and reproduction also provides a reference for ecological protection. With their keen sensory organs, lobsters can react quickly in changing environments to find food and avoid predators. This feature reveals how to build an intelligent sensing system in the research and development of environmental monitoring equipment to improve the response speed of equipment to environmental changes.