Abstract: The present disclosure describes a mounting bracket for remote radio unit mounting assemblies. The mounting bracket includes a bracket member having a main body section and two arms extending outwardly at an oblique angle from opposing ends of the main body section, wherein the main body section includes a slot and each arm includes a plurality of mounting apertures; and a brace member, wherein a middle section of the brace member is configured to be received within the slot of the bracket member and opposing end sections of the brace member contact a respective arm of the bracket member. Remote radio unit mounting assemblies are also described herein.

Abstract: The present disclosure describes a mounting bracket for remote radio unit mounting assemblies. The mounting bracket includes a bracket member having a main body section and two arms extending outwardly at an oblique angle from opposing ends of the main body section, wherein the main body section includes a slot and each arm includes a plurality of mounting apertures; and a brace member, wherein a middle section of the brace member is configured to be received within the slot of the bracket member and opposing end sections of the brace member contact a respective arm of the bracket member. Remote radio unit mounting assemblies are also described herein.

Abstract: The present disclosure describes a mounting bracket for remote radio unit mounting assemblies. The mounting bracket includes a bracket member having a main body section and two arms extending outwardly at an oblique angle from opposing ends of the main body section, wherein the main body section includes a slot and each arm includes a plurality of mounting apertures; and a brace member, wherein a middle section of the brace member is configured to be received within the slot of the bracket member and opposing end sections of the brace member contact a respective arm of the bracket member. Remote radio unit mounting assemblies are also described herein.

Abstract: System and method for maintaining the observed vertical structure of ocean temperature and salinity in data assimilation systems that otherwise would produce overly smoothed ocean vertical structure. The present embodiment uses a multi-layer least squares minimization technique in which the ocean is split into layers with fundamentally different vertical gradients, and the dynamic ocean layers are constrained by the observed vertical gradients of the layer itself.

Abstract: System and method for maintaining the observed vertical structure of ocean temperature and salinity in data assimilation systems that otherwise would produce overly smoothed ocean vertical structure. The present embodiment uses a multi-layer least squares minimization technique in which the ocean is split into layers with fundamentally different vertical gradients, and the dynamic ocean layers are constrained by the observed vertical gradients of the layer itself.