A Bluetooth finder is a small battery-powered device that can be attached to important items such as bags, keychains, or bikes. The finder maintains a Bluetooth connection with the user's phone, and the user is notified immediately on connection loss. We provide the first comprehensive security and privacy analysis of current commercial Bluetooth finders. Our analysis reveals several significant security vulnerabilities in those products concerning mobile applications and the corresponding backend services in the cloud. We also show that all analyzed cloud-based products leak more private data than required for their respective cloud services.Overall, there is a big market for Bluetooth finders, but none of the existing products is privacy-friendly. We close this gap by designing and implementing PrivateFind, which ensures locations of the user are never leaked to third parties. It is designed to run on similar hardware as existing finders, allowing vendors to update their systems using PrivateFind.
CCS CONCEPTS• Security and privacy → Systems security; Software security engineering; Software reverse engineering; • Networks → Application layer protocols.
The high impact strength of polycarbonate has been studied and exploited for many applications. However, the interaction between processing-induced effects and the strain rate affects the mechanical behavior significantly. In this work, the effects of the processing-induced thermal history, generated by either injection molding or compression molding, were characterized. Polycarbonate samples manufactured with the two processes were experimentally compared using quasi-static and dynamic compression testing. The processing effects are further evaluated by combining a numerical calculation of the temperature history and a constitutive model to predict the yield strength of the glassy polymer. The constitutive modeling approach considers both the effect of the rate-dependent and stress-activated motion of the chain segments, and the strain-hardening effect due to molecular alignment. The results indicate that the thermal history has a significant effect at low strain rates, while its influence is negligible in the dynamic range. The modeling effort allows estimating the yield strength with different accuracy depending on the strain rate values.
Nucleic acid accumulation in repeat expansion disease poses multiple challenges to cellular integrity. Myotonic dystrophy type 2 (DM2) results from large CCTG repeats in the CNBP gene leading to myopathy and an increased prevalence of autoimmunity. Here, we observed that DM2 patients exhibited a type-I interferon signature in blood and cultured fibroblasts. RNA repeat accumulation was prevalent in the cytosol of DM2 patient fibroblasts, facilitating repeat-associated non-AUG translation. The ensuing chronic endoplasmic reticulum (ER) stress response led to an ATF6-controlled induction of type-I IFN dependent on the cGAS/STING pathway. Recapitulating chronic ER stress in the monocytic THP-1 cell line revealed its dependence on mitochondrial DNA (mtDNA). Correspondingly, mitochondrial stress and cytosolic leakage of mtDNA was observed in DM2 patient fibroblasts. Altogether, our study demonstrates a novel mechanism by which large repeat expansions cause chronic ER and mitochondrial stress and induce a type-I interferon response that predisposes to autoimmunity.
Keywords: ER stress, ATF6, Autoimmunity, type I IFN, repeat expansions
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