Lens retainer ring with compliant element

The invention claimed is: 1. A sensor assembly comprising: a lens; a housing including a sidewall; a support element affixed to a first section of the sidewall of the housing and receiving a first portion of the lens along a first section thereof; and a retainer assembly in direct contact with a second portion of the lens to secure the lens in the sensor assembly, the retainer assembly including a retainer ring and a polymeric material defining an inner circumference and an outer circumference coupled thereto, the retainer ring being removably affixed to a second section of the sidewall, the polymeric material being in direct contact with the second portion of the lens, and the polymeric material being a single component disposed between the lens and the retainer ring; wherein the polymeric material has a mechanical preload force and an operational temperature range for operation of the sensor assembly; wherein the polymeric material forms a discontinuous seal between the retainer assembly and the lens, the discontinuous seal providing a leak path to avoid formation of a gas-tight compartment within the sensor assembly; and wherein the polymeric material includes one or more protrusions that form the discontinuous seal, wherein the one or more protrusions extend radially inward beyond the inner circumference. 2. The sensor assembly of claim 1 , wherein the operational temperature range for operation of the sensor assembly is −40° F. to 185° F. 3. The sensor assembly of claim 1 , wherein the polymeric material forms the discontinuous seal between the retainer assembly and the lens via one or more gaps between sections of the polymeric material. 4. The sensor assembly of claim 3 , wherein the one or more gaps are arranged to have a spacing that is configured to facilitate a gas flow rate. 5. The sensor assembly of claim 1 , wherein the polymeric material has an elasticity for operation of the sensor assembly over the operational temperature range. 6. The sensor assembly of claim 1 , wherein the leak path provides for condensation or contaminants to leave the sensor assembly to avoid impairing sensor assembly operation through scattering or refraction of incident light. 7. The sensor assembly of claim 1 , wherein the retainer ring is metal. 8. The sensor assembly of claim 7 , wherein the metal ring is aluminum. 9. The sensor assembly of claim 1 , wherein the polymeric material is formed along the retainer ring using insert molding or overmolding. 10. The sensor assembly of claim 1 , wherein the retainer ring does not directly contact the lens. 11. The sensor assembly of claim 1 , wherein the polymeric material is arranged as a plurality of compliant components affixed to discrete portions of the retainer ring. 12. The sensor assembly of claim 1 , wherein: the lens comprises a plurality of lenses; and the retainer assembly comprises a plurality of retainer assemblies, each of the plurality of retainer assemblies securing one of the plurality of lenses to the housing of the sensor assembly. 13. The sensor assembly of claim 12 , wherein the plurality of lenses is configured in a stacked arrangement within the housing of the sensor assembly. 14. The sensor assembly of claim 1 , wherein the sensor assembly includes a camera sensor. 15. The sensor assembly of claim 1 , wherein the sensor assembly further comprises a lidar sensor. 16. The sensor assembly of claim 1 , wherein at least a portion of the one or more protrusions is angled relative to a portion of the polymeric material between the inner circumference and the outer circumference. 17. A vehicle, comprising: a front end; a rear end; a left side panel coupled to the front end and the rear end; a right side panel coupled to the front end and the rear end; a roof coupled to the left and right side panels; and a sensor assembly comprising: a lens; a housing including a sidewall; a support element affixed to a first section of the sidewall of the housing and receiving a first portion of the lens along a first section thereof; and a retainer assembly in direct contact with a second portion of the lens to secure the lens in the sensor assembly, the retainer assembly including a retainer ring and a polymeric material defining an inner circumference and an outer circumference coupled thereto, the retainer ring being removably affixed to a second section of the sidewall, the polymeric material being in direct contact with the second portion of the lens, and the polymeric material being a single component disposed between the lens and the retainer ring; wherein the polymeric material has a mechanical preload force and an operational temperature range for operation of the sensor assembly; wherein the polymeric material forms a discontinuous seal between the retainer assembly and the lens, the discontinuous seal providing a leak path to avoid formation of a gas-tight compartment within the sensor assembly; wherein the polymeric material includes one or more protrusions that form the discontinuous seal, wherein the one or more protrusions extend radially inward beyond the inner circumference; and wherein the sensor assembly is disposed along either a perimeter of the vehicle or on the roof of the vehicle. 18. The vehicle of claim 17 , wherein the sensor assembly is disposed along the perimeter of the vehicle at one of the front end, the rear end, the left side panel or the right side panel. 19. A method of fabricating a sensor assembly, the method comprising: forming a retainer assembly by fixedly securing a compliant component to a retainer ring, the compliant component having an elasticity and an operational temperature range for operation of the sensor assembly, and the compliant component being a single component defining an inner circumference and an outer circumference and formed between a lens and the retainer ring; arranging a first portion of a lens along a first section of a sensor housing; and securing the lens to the sensor housing with the retainer assembly by coupling the retainer ring to a second section of the sensor housing so that the compliant component is in direct contact with a second portion of the lens; wherein the compliant component forms a discontinuous seal between the retainer assembly and the lens, the discontinuous seal providing a leak path to avoid formation of a gas-tight compartment within the sensor assembly, and wherein the compliant component includes one or more protrusions that form the discontinuous seal, wherein the one or more protrusions extend radially inward beyond the inner circumference. 20. The method of claim 19 , wherein forming the retainer assembly by fixedly securing the compliant component to the retainer ring is performed by insert molding or overmolding the compliant component to the retainer ring. 21. The method of claim 19 , wherein securing the lens to the sensor housing with the retainer assembly by coupling the retainer ring to the second section of the sensor housing includes one of threadedly securing, adhesively bonding, or snap fitting the retainer ring to the second section of the sensor housing.