Scan of specimen ummz:mammals:166879 (Blarina brevicauda kirtlandi) - WholeBody. Raw Dataset includes 3141 TIF images (each 858 x 1378 x 1 voxel at 0.03537455 mm resolution, derived from 3141 scan projections), xtek and vgi files for volume reconstruction. and Scan of specimen ummz:mammals:166879 (Blarina brevicauda kirtlandi) - WholeBody. Reconstructed Dataset includes 1775 TIF images (each 858 x 1378 x 1 voxel at 0.035375 mm resolution, derived from 3141 scan projections), xtek and vgi files for volume reconstruction.
Scan of specimen ummz:mammals:166879 (Blarina brevicauda kirtlandi) - WholeBody. Raw Dataset includes 3141 TIF images (each 1237 x 1972 x 1 voxel at 0.01845421 mm resolution, derived from 3141 scan projections), xtek and vgi files for volume reconstruction. and Scan of specimen ummz:mammals:166879 (Blarina brevicauda kirtlandi) - WholeBody. Reconstructed Dataset includes 1363 TIF images (each 1237 x 1972 x 1 voxel at 0.018454 mm resolution, derived from 3141 scan projections), xtek and vgi files for volume reconstruction.
Scan of specimen ummz:mammals:166890 (Blarina brevicauda kirtlandi) - WholeBody. Raw Dataset includes 3141 TIF images (each 771 x 848 x 1 voxel at 0.03842772 mm resolution, derived from 3141 scan projections), xtek and vgi files for volume reconstruction. and Scan of specimen ummz:mammals:166890 (Blarina brevicauda kirtlandi) - WholeBody. Reconstructed Dataset includes 1930 TIF images (each 771 x 848 x 1 voxel at 0.038428 mm resolution, derived from 3141 scan projections), xtek and vgi files for volume reconstruction.
Scan of specimen ummz:mammals:166890 (Blarina brevicauda kirtlandi) - WholeBody. Raw Dataset includes 3141 TIF images (each 1410 x 1429 x 1 voxel at 0.01845421 mm resolution, derived from 3141 scan projections), xtek and vgi files for volume reconstruction. and Scan of specimen ummz:mammals:166890 (Blarina brevicauda kirtlandi) - WholeBody. Reconstructed Dataset includes 1783 TIF images (each 1410 x 1429 x 1 voxel at 0.018454 mm resolution, derived from 3141 scan projections), xtek and vgi files for volume reconstruction.
Scan of specimen ummz:mammals:166894 (Blarina brevicauda kirtlandi) - WholeBody. Raw Dataset includes 3141 TIF images (each 926 x 1417 x 1 voxel at 0.03361506 mm resolution, derived from 3141 scan projections), xtek and vgi files for volume reconstruction. and Scan of specimen ummz:mammals:166894 (Blarina brevicauda kirtlandi) - WholeBody. Reconstructed Dataset includes 1951 TIF images (each 926 x 1417 x 1 voxel at 0.033615 mm resolution, derived from 3141 scan projections), xtek and vgi files for volume reconstruction.
Scan of specimen ummz:mammals:166894 (Blarina brevicauda kirtlandi) - WholeBody. Raw Dataset includes 3141 TIF images (each 1760 x 1210 x 1 voxel at 0.01941239 mm resolution, derived from 3141 scan projections), xtek and vgi files for volume reconstruction. and Scan of specimen ummz:mammals:166894 (Blarina brevicauda kirtlandi) - WholeBody. Reconstructed Dataset includes 1678 TIF images (each 1760 x 1210 x 1 voxel at 0.019412 mm resolution, derived from 3141 scan projections), xtek and vgi files for volume reconstruction.
Scan of specimen ummz:mammals:116648 (Nyctereutes procyonoides) - Skull. Raw Dataset includes 1601 TIF images (each 898 x 983 x 1 voxel at 0.06401958 mm resolution, derived from 1601 scan projections), xtek and vgi files for volume reconstruction. and Scan of specimen ummz:mammals:116648 (Nyctereutes procyonoides) - Skull. Reconstructed Dataset includes 1948 TIF images (each 898 x 983 x 1 voxel at 0.064020 mm resolution, derived from 1601 scan projections), xtek and vgi files for volume reconstruction.
Radar observations supply detailed information about the structure and evolution of precipitation. These observations allow one to evaluate the macro- and/or micro-physical properties of precipitation at high spatial and temporal resolution. This dataset provides a nearly continuous collection of radar observations from a Metek Micro Rain Radar 2 (MRR) in Marquette, Michigan, USA (MQT). The MRR is a relatively low-cost, low-power K-band (24 GHz) profiling radar that scans the atmosphere at a fixed 90° zenith angle (i.e., directly overhead). The MRR in MQT is configured such that observations are provided every minute at a vertical resolution of 100m up to 3000m AGL (note: due to ground clutter, the effective operating range is 400m–3000m AGL). The MRR data are processed using IMProToo (Maahn and Kollias, 2012; https://doi.org/10.5194/amt-5-2661-2012) to increase the sensitivity of the radar to -10 dBZ and are “de-noised” using a principal component analysis method on the MRR raw power spectra to remove interference from a nearby broadcasting tower (Pettersen et al., 2020; https://doi.org/10.1175/JAMC-D-19-0099.1). Within this dataset, users will find observations such as the equivalent reflectivity factor, Doppler velocity, and reflectivity power spectra.
A work that demonstrates enhancement by nearly two-orders of magnitude of the circular-polarized optical Stark effect in WSe₂ embedded into a Fabry Perot cavity, and use this mechanism to implement a XOR switch.
Robotic models are useful for independently varying specific features, but most quadrupedal robots differ so greatly from animal morphologies that they have minimal evolutionary relevance. Commercially available quadrupedal robots are also prohibitively expensive for biological research programs and difficult to customize. Here, we present a low-cost quadrupedal robot with modular legs that can match a wide range of animal morphologies for biomechanical hypothesis testing. The Robot Of Theseus (TROT) costs ≈$4000 to build out of 3D printed parts and standard off-the-shelf supplies. Each limb consists of 2 or 3 rigid links; the proximal joint can be rotated to become a knee or elbow. Telescoping mechanisms vary the length of each limb link. The open-source software accommodates user-defined gaits and morphology changes. Effective leg length, or crouch, is determined by the four-bar linkage actuating each joint. The backdrivable motors can vary virtual spring stiffness and range of motion.