A snap from a snapping shrimp (known as the pistol shrimp) can create extreme pressures that will produce a flash of light and temperatures of 3,000 degrees Fahrenheit, producing plasma (a state of matter in which electrons are freed from their atoms).

Open Bionics announced on Thursday that it has partnered with Hanger Clinic to bring the first-ever medically-certified 3D-printed bionic arm to the United States.

Relativity, the Los Angeles-based manufacturer fo 3D printed rockets, has signed its first public commercial contract with Telesat, the renowned global satellite operator

A team of engineers at Tufts University has developed a series of 3D printed metamaterials with unique microwave or optical properties.

Researchers at Virginia Tech are integrating electronic sensors into personalized 3D printed prosthetics, a development that could lead to more affordable electric-powered prosthetics.

Samsung's Galaxy S10 fingerprint sensor tricked by 3D printed fingerprint http://www.3ders.org/articles/20190409-samsungs-galaxy-s10-fingerprint-sensor-tricked-by-3d-printed-fingerprint.html #3dprinting If you bought a Samsung Galaxy S10, you might want to reconsider using your fingerprint to lockdown your device.

Fashion brand COS has teamed up with French architect Arthur Mamou-Mani to present a large-scale 3D printed architectural installation made from renewable bioplastic bricks at this year's Milan design week.

Swedish metal giant Sandvik has unveiled what was described as “the world’s first smash-proof 3D printed guitar.”

German automobile manufacturer Audi AG is expanding the use of 3D printers in production. Custom-designed and locally printed auxiliary tools from the 3D printer help employees on the production lines.

One of the ways of making bioengineered tissues is to embed living cells within 3D printed structures. But one challenge has been organizing the cells in 3D bioprinted gels, so that the engineered tissue more closely mimics natural tissues.

UAE building giant Arabtec Construction has teamed up with Robert Bird Group, American University of Dubai (AUD) and local firm 3Dvincy Creations, to establish the AUD Center for 3D concrete printing & digital construction.

Silicon Valley company AREVO has announced a partnership with boutique bike manufacturer Franco Bicycles to deliver the world’s first 3D printed, continuous carbon fiber single-piece unibody frame for a new line of eBikes.

The University of South Australia is using a blend of icing sugar, chicken stock and flexible resin to create realistic foot ulcers as part of a world-first podiatric training initiative.

For the first time ever Israeli scientists have created a vascularized human heart that combines human tissue taken from a patient, using a 3D printer.

GE Research is leading a $2.5 MM project through the Advanced Research Projects Agency’s (ARPA-E) High Intensity Thermal Exchange through Materials and Manufacturing Processes program (HITEMMP) to develop a high temperature, high pressure and super-compact heat exchanger enabled by additive manufacturing technology.

French biotechnology company Poietis has announced the granting of a third patent for its laser-assisted 3D bioprinting technology.

On March 27, 2019, the joint project IDAM held its kick-off meeting in Munich, which was intended to lead the way for furthering the use of AM processes in automotive series production.

To keep rockets from getting too hot during the extreme temperatures of launch, insulation is essential — but it's not always easy to fit it into a spacecraft's cramped machinery.

Campden BRI have begun a research project to evaluate how 3D printing could benefit the food industry.

Ted Shin, the chair of the Department of Industrial Design at Metropolitan State University of Denver, could see coronavirus coming, first in China, then in Italy.

A 3D printer is a desktop fabrication machine. I can make almost anything, and it is crazy.

3D printers can be loud and hot, but they don't actually use a ton of electricity.

A few people sent in STL files for their 3D models. Here's what they look like in plastic!

3D printing is a slow process. A hot nozzle heats up and squirts molten hot plastic in a carefully determined pattern to form a three dimentional object. It's like using a hot glue gun to squirt out an entire sculpture. It takes time.

IBM (NYSE: IBM) announced today that Workshop FX, a Wellington 3D Computer Animation and Visual FX company, is the first New Zealand customer to implement IBM SONAS, its scalable enterprise-class network attached storage array. SONAS (Scale Out Network Attached Storage) has enabled Workshop FX to significantly increase rendering productivity while preparing the studio for future business growth and emerging industry standards including 3D film production.

Designer Andrey Rudenko was able to use a 3D concrete printer to make layer after layer of this little castle. His next goal? A complete two-story house.

Truss, a Chicago-based real estate technology firm, is seeing increased interest in its 3D virtual office tours during the coronavirus pandemic.

Using data from an especially bright population of stars, astronomers have reconstructed the Milky Way’s peaks and valleys like never before.

New techniques are being used to transform images from Hubble into spectacular 3D visualisations.

oscon: Beginner's Guide to Computer Vision - 2D/3D image fundamentals, OpenCV, OpenNI Library + more http://t.co/ph2dKrC9W4 #oscon #tutorial

Part of the Antarctic diary promo for the BBC UK Homepage

The Space Museum will present Turtle Odyssey 3D between January 1 and April 30 where audiences can join sea turtle Bunji for a remarkable adventure and meet an astonishing range of strange and fascinating creatures, including breaching whales, manta rays and clownfish.

Bunji's journey starts from the moment her fragile egg cracks open below the warm sand of an Australian beach.

Having traversed thousands of kilometres of open oceans, she returns after decades with mysterious precision back to the very beach where she was born to lay eggs and start the next generation.

Her journey reminds the audience of how interconnected all creatures are, moving them to cherish these beautiful and vulnerable sea turtles even more.

The 41-minute show will be screened daily at 2.40pm and 6.10pm. An additional show at 11.10am will be available on Sundays and public holidays.

Tickets are available at the Space Museum Box Office and URBTIX. The museum is closed on Tuesdays except public holidays.

Click here for details.

(ICFO-The Institute of Photonic Sciences) ICFO researchers report on a new method to obtain high color purity 3D objects with the use of a new class of nanoparticles.

Inter-α-inhibitor is a proteoglycan essential for mammalian reproduction and also plays a less well-characterized role in inflammation. It comprises two homologous “heavy chains” (HC1 and HC2) covalently attached to chondroitin sulfate on the bikunin core protein. Before ovulation, HCs are transferred onto the polysaccharide hyaluronan (HA) to form covalent HC·HA complexes, thereby stabilizing an extracellular matrix around the oocyte required for fertilization. Additionally, such complexes form during inflammatory processes and mediate leukocyte adhesion in the synovial fluids of arthritis patients and protect against sepsis. Here using X-ray crystallography, we show that human HC1 has a structure similar to integrin β-chains, with a von Willebrand factor A domain containing a functional metal ion-dependent adhesion site (MIDAS) and an associated hybrid domain. A comparison of the WT protein and a variant with an impaired MIDAS (but otherwise structurally identical) by small-angle X-ray scattering and analytical ultracentrifugation revealed that HC1 self-associates in a cation-dependent manner, providing a mechanism for HC·HA cross-linking and matrix stabilization. Surprisingly, unlike integrins, HC1 interacted with RGD-containing ligands, such as fibronectin, vitronectin, and the latency-associated peptides of transforming growth factor β, in a MIDAS/cation-independent manner. However, HC1 utilizes its MIDAS motif to bind to and inhibit the cleavage of complement C3, and small-angle X-ray scattering–based modeling indicates that this occurs through the inhibition of the alternative pathway C3 convertase. These findings provide detailed structural and functional insights into HC1 as a regulator of innate immunity and further elucidate the role of HC·HA complexes in inflammation and ovulation.

Residents may have seen a distinctive white car, fitted with advanced imaging and sensory gadgetry, on its journey to create the next generation of Hong Kong maps.

As it travels up and down the city’s streets, it records the three-dimensional shapes of buildings ranging from the iconic Convention & Exhibition Centre to the Customs Headquarters Building, and even primary school campuses.

The vehicle, dubbed the Mobile Mapping System, is one of the latest technologies used by the Lands Department to survey the city.

Five pieces of equipment work in concert to collect detailed information for the 3D City Map - a core component of the digital infrastructure underpinning Hong Kong’s smart city development.

A high-resolution camera on top of the vehicle captures 360-degree images and a 3D laser scanner collects spatial measurements. An inertial navigation system and a global navigation satellite system receiver provide precise positioning.

Lands Department Assistant Land Surveyor Charlie Hung said one of the biggest advantages of this system is its ability to quickly and efficiently acquire data, which can be used to enrich 3D models and enhance existing maps.

“We can enhance the attributed information of our basic map. For example, the lamppost number, the building name or the street number.”

Drones are also used to map the city, she added. However, air surveying may not be suitable for collecting data from ground level. This is where the Mobile Mapping System vehicle comes into play.

Better data

The 3D City Map is part of the 3D Digital Map Development, which aims to contribute to an innovative, sustainable and smart Hong Kong.

Compared with traditional maps, the 3D City Map can provide more accurate and abundantly better spatial data.

The map will cover the entire city by 2023, serving as a handy tool for analysis and planning, according to Lands Department Land Surveyor Ben Fan.

He said: “Based on the 3D digital map, we can develop various kinds of applications such as land administration, environmental assessment, town planning and also transport and engineering studies.”

The latest transport infrastructures such as the Hong Kong-Zhuhai-Macao Bridge, the Central-Wan Chai Bypass and the Heung Yuen Wai Highway have also been scanned.

In the next stage of the 3D Digital Map Development, the department will create the 3D Indoor Map. As a start, data from 150 buildings in Kowloon East will be collected first before extending to other buildings in the city.

The last stage 3D models of objects such as trees and lampposts for city modelling will be produced.

⁶⁸Ga-DOTATOC-PET/MRI (⁶⁸Gallium-DOTATOC-positron emission tomography/magnetic resonance imaging) combines the advantages of PET in the acquisition of metabolic-functional information with the high soft tissue contrast of MRI. Standardized uptake values (SUV) in tumors were suggested as a measure of somatostatin receptor expression. A challenge with receptor ligands is, that the distribution volume is confined to tissues with tracer-uptake, potentially limiting SUV quantification. In this study, different functional, three-dimensional (3D) SUV, apparent diffusion coefficient (ADC) parameters and arterial tumor enhancement were tested for the characterization of gastroendopancreatic neuroendocrine tumors (GEP-NET). Methods: For this single-center, cross-sectional study, 22 patients with 24 histologically confirmed GEP-NET lesions (15 men/7 women; median, 61 years, range, 43-81 years), who received hybrid ⁶⁸Ga-DOTA-PET/MRI examinations at 3T between January 2017 and July 2019 met eligibility criteria. SUVs, tumor-to-background ratios (TBR), the total functional tumor volume (TFTV), ADCmean and ADCmin were measured based on volumes of interest (VOI) and examined with receiver operating characteristic analysis to determine cut-off values for differentiation between low and intermediate grade GEP-NET. Spearman’s rank correlation coefficients were used to assess correlations between functional imaging parameters. Results: The ratio of PET-derived SUVmean and diffusion-weighted imaging (DWI)-derived ADCmin was introduced as a combined variable to predict tumor grade, outperforming single predictors. Based on a threshold ratio of 0.03 to be exceeded, tumors could be classified as grade 2 with a sensitivity of 86% and specificity of 100%. SUV and functional ADC values as well as arterial contrast enhancement parameters showed non-significant and mostly negligible correlations. Conclusion: As receptor density and tumor cellularity appear to be independent, potentially complementary phenomena, the combined PET/MRI ratio SUVmean/ADCmin may be used as a novel biomarker, allowing to differentiate between grade 1 and 2 GEP-NET.

"A special challenge of hard rock exploration is to identify targets of interest within complex geological settings. Interpretation of the geology can be made from direct geological observations and knowledge of the area, and from 2D or 3D seismic surveys. These interpretations can be developed into 3D geological models that provide the basis for predictions as to likely targets for drilling and/or mining. To verify these predictions we need to simulate 3D seismic wave propagation in the proposed geological models and compare the simulation results to seismic survey data. To achieve this we convert geological surfaces created in an interpretation software package into discretised block models representing the different lithostratigraphic units, and segment these into discrete volumes to which appropriate density and seismic velocity values are assigned. This approach allows us to scale models appropriately for desired wave propagation parameters and to go from local to global geological models and vice versa. Then we use these digital models with forward modelling codes to undertake numerous 3D acoustic wave simulations. Simulations are performed with single shot and with exploding reflector (located on extracted geological surface) configurations" -- Summary.

"Researchers of DETCRC 3.1 project acquired substantial experience in seismic exploration of Nickel deposits across Yilgarn craton, Western Australia. There are many lessons learnt and various approaches trialled. The validity of the research conducted and the outputs achieved were verified against real field data provided by the sponsors and affiliates to DET CRC. Research quality was scrutinised by publishing in high level journals. In general high quality images are achieved over nickel rich Kambalda province that allowed for an accurate structural interpretation. Rock identification and characterisation is still challenging particularly due to lack of calibration of seismic images with borehole logs and borehole seismic. Several case histories are documented and briefly analysed. The difference between Komatiitic nickel deposit of Australia and Canada is also commented in light of seismic response and required technology for its detection" -- Executive summary.

"This document is intended to summarise the current state, understanding and the use of seismic reflection method for mineral exploration. Its primary objective is to provide a point of reference, based on actual case studies, for mineral explorers interested in the application of seismic methods to their project. It provides summary information (including the purpose of the survey, acquisition methods, geometry and cost, processing procedures and key findings) that are intended to provide the reader with an objective means of assessing the cost effectiveness of the technique with respect to exploration objectives. It is also aimed at exchange of information between DETCRC sponsors, affiliates and researchers. Finally we hope that this table will help in shaping future research efforts and direction within Project 3.1, regarding the application of seismic for mineral exploration.This is only initial work and it is hoped that it will evolve into a document or a catalogue that will be extensively used by the mineral industry to achieve their exploration objectives in more efficient and effective way" -- Executive summary.

Methods for generating synthetic data have become of increasing importance to build large datasets required for Convolution Neural Networks (CNN) based deep learning techniques for a wide range of computer vision applications. In this work, we extend existing methodologies to show how 2D thermal facial data can be mapped to provide 3D facial models. For the proposed research work we have used tufts datasets for generating 3D varying face poses by using a single frontal face pose. The system works by refining the existing image quality by performing fusion based image preprocessing operations. The refined outputs have better contrast adjustments, decreased noise level and higher exposedness of the dark regions. It makes the facial landmarks and temperature patterns on the human face more discernible and visible when compared to original raw data. Different image quality metrics are used to compare the refined version of images with original images. In the next phase of the proposed study, the refined version of images is used to create 3D facial geometry structures by using Convolution Neural Networks (CNN). The generated outputs are then imported in blender software to finally extract the 3D thermal facial outputs of both males and females. The same technique is also used on our thermal face data acquired using prototype thermal camera (developed under Heliaus EU project) in an indoor lab environment which is then used for generating synthetic 3D face data along with varying yaw face angles and lastly facial depth map is generated.

Gregorio Quintana-Ortí, Amelia Simó.

Source: Statistical Science, Volume 34, Number 2, 236--252.

Abstract:
This paper is focused on kernel regression when the response variable is the shape of a 3D object represented by a configuration matrix of landmarks. Regression methods on this shape space are not trivial because this space has a complex finite-dimensional Riemannian manifold structure (non-Euclidean). Papers about it are scarce in the literature, the majority of them are restricted to the case of a single explanatory variable, and many of them are based on the approximated tangent space. In this paper, there are several methodological innovations. The first one is the adaptation of the general method for kernel regression analysis in manifold-valued data to the three-dimensional case of Kendall’s shape space. The second one is its generalization to the multivariate case and the addressing of the curse-of-dimensionality problem. Finally, we propose bootstrap confidence intervals for prediction. A simulation study is carried out to check the goodness of the procedure, and a comparison with a current approach is performed. Then, it is applied to a 3D database obtained from an anthropometric survey of the Spanish child population with a potential application to online sales of children’s wear.

Navigation often requires movement in three-dimensional (3D) space. Recent studies have postulated two different models for how head direction (HD) cells encode 3D space: the rotational plane hypothesis and the dual-axis model. To distinguish these models, we recorded HD cells in female rats while they traveled different routes along both horizontal and vertical surfaces from an elevated platform to the top of a cuboidal apparatus. We compared HD cell preferred firing directions (PFDs) in different planes and addressed the issue of whether HD cell firing is commutative—does the order of the animal's route affect the final outcome of the cell's PFD? Rats locomoted a direct or indirect route from the floor to the cube top via one, two, or three vertical walls. Whereas the rotational plane hypothesis accounted for PFD shifts when the animal traversed horizontal corners, the cell's PFD was better explained by the dual-axis model when the animal traversed vertical corners. Responses also followed the dual-axis model (1) under dark conditions, (2) for passive movement of the rat, (3) following apparatus rotation, (4) for movement around inside vertical corners, and (5) across a 45° outside vertical corner. The order in which the animal traversed the different planes did not affect the outcome of the cell's PFD, indicating that responses were commutative. HD cell peak firing rates were generally equivalent along each surface. These findings indicate that the animal's orientation with respect to gravity plays an important role in determining a cell's PFD, and that vestibular and proprioceptive cues drive these computations.

SIGNIFICANCE STATEMENT Navigating in a three-dimensional (3D) world is a complex task that requires one to maintain a proper sense of orientation relative to both local and global cues. Rodent head direction (HD) cells have been suggested to subserve this sense of orientation, but most HD cell studies have focused on navigation in 2D environments. We investigated the responses of HD cells as rats moved between multiple vertically and horizontally oriented planar surfaces, demonstrating that HD cells align their directional representations to both local (current plane of locomotion) and global (gravity) cues across several experimental conditions, including darkness and passive movement. These findings offer critical insights into the processing of 3D space in the mammalian brain.

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