SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W3199523614> ?p ?o ?g. }

Showing items 1 to 86 of 86 with 100 items per page.

W3199523614 endingPage "526" @default.
W3199523614 startingPage "519" @default.
W3199523614 abstract "Future generations of mobile communications promise near unlimited access to information and data sharing with ubiquitous wireless connectivity for any kind of device and application that may benefit from being connected. This poses new design challenges and requires a renewal of the hardware platforms to meet the increased demand of capacity and reliability of the network. Next generation Radio Access Network (RAN) will evolve towards an increase of the radio bandwidth, with carrier frequency extended to the millimeter waves (mmW) range. Other technologies that will be extensively used to increase the RAN capacity will be beamforming and spatial multiplexing with advanced antenna systems (AAS) comprising hundreds of antenna elements. Optical technologies are the natural candidates to support the traffic increase, by providing high-capacity interconnection within the radio unit and towards the base band unit (BBU). However, the higher level of integration of AAS will cause an increase of the temperature to values >100°C, due to power dissipation of RF power amplifiers (PA), digital front-end (DFE) and baseband processing Application Specific Circuits (ASIC). This makes the AAS an inhospitable environment for optical transceivers that include lasers, typically operating at temperatures <85°C. A promising approach to solve this issue is to place the laser outside the transceiver as a remote laser source (RLS) in a less harsh environment or in a thermally controlled environment e.g., in the same cabinet of the BBU. In this article we demonstrate a fully integrated RLS enabling a reduction of power consumption and packaging cost." @default.
W3199523614 created "2021-09-27" @default.
W3199523614 creator A5000812631 @default.
W3199523614 creator A5023395718 @default.
W3199523614 creator A5026382041 @default.
W3199523614 creator A5035917822 @default.
W3199523614 creator A5038356224 @default.
W3199523614 creator A5039357124 @default.
W3199523614 creator A5045673181 @default.
W3199523614 creator A5048326264 @default.
W3199523614 creator A5053450278 @default.
W3199523614 creator A5063065550 @default.
W3199523614 date "2022-01-15" @default.
W3199523614 modified "2023-10-16" @default.
W3199523614 title "Integrated Remote Laser Source for 6G Advanced Antenna Systems" @default.
W3199523614 cites W1602167237 @default.
W3199523614 cites W1991913174 @default.
W3199523614 cites W2007082378 @default.
W3199523614 cites W2014015061 @default.
W3199523614 cites W2052465787 @default.
W3199523614 cites W2330189223 @default.
W3199523614 cites W2497419470 @default.
W3199523614 cites W2887980473 @default.
W3199523614 cites W2896385106 @default.
W3199523614 cites W2981656869 @default.
W3199523614 cites W2999650620 @default.
W3199523614 cites W3166752161 @default.
W3199523614 doi "https://doi.org/10.1109/jlt.2021.3111694" @default.
W3199523614 hasPublicationYear "2022" @default.
W3199523614 type Work @default.
W3199523614 sameAs 3199523614 @default.
W3199523614 citedByCount "3" @default.
W3199523614 countsByYear W31995236142022 @default.
W3199523614 countsByYear W31995236142023 @default.
W3199523614 crossrefType "journal-article" @default.
W3199523614 hasAuthorship W3199523614A5000812631 @default.
W3199523614 hasAuthorship W3199523614A5023395718 @default.
W3199523614 hasAuthorship W3199523614A5026382041 @default.
W3199523614 hasAuthorship W3199523614A5035917822 @default.
W3199523614 hasAuthorship W3199523614A5038356224 @default.
W3199523614 hasAuthorship W3199523614A5039357124 @default.
W3199523614 hasAuthorship W3199523614A5045673181 @default.
W3199523614 hasAuthorship W3199523614A5048326264 @default.
W3199523614 hasAuthorship W3199523614A5053450278 @default.
W3199523614 hasAuthorship W3199523614A5063065550 @default.
W3199523614 hasConcept C119599485 @default.
W3199523614 hasConcept C127413603 @default.
W3199523614 hasConcept C194257627 @default.
W3199523614 hasConcept C24326235 @default.
W3199523614 hasConcept C2776257435 @default.
W3199523614 hasConcept C41008148 @default.
W3199523614 hasConcept C555944384 @default.
W3199523614 hasConcept C65165936 @default.
W3199523614 hasConcept C76155785 @default.
W3199523614 hasConcept C7720470 @default.
W3199523614 hasConceptScore W3199523614C119599485 @default.
W3199523614 hasConceptScore W3199523614C127413603 @default.
W3199523614 hasConceptScore W3199523614C194257627 @default.
W3199523614 hasConceptScore W3199523614C24326235 @default.
W3199523614 hasConceptScore W3199523614C2776257435 @default.
W3199523614 hasConceptScore W3199523614C41008148 @default.
W3199523614 hasConceptScore W3199523614C555944384 @default.
W3199523614 hasConceptScore W3199523614C65165936 @default.
W3199523614 hasConceptScore W3199523614C76155785 @default.
W3199523614 hasConceptScore W3199523614C7720470 @default.
W3199523614 hasIssue "2" @default.
W3199523614 hasLocation W31995236141 @default.
W3199523614 hasOpenAccess W3199523614 @default.
W3199523614 hasPrimaryLocation W31995236141 @default.
W3199523614 hasRelatedWork W1990326015 @default.
W3199523614 hasRelatedWork W2111129134 @default.
W3199523614 hasRelatedWork W2135838871 @default.
W3199523614 hasRelatedWork W2141190432 @default.
W3199523614 hasRelatedWork W2162327980 @default.
W3199523614 hasRelatedWork W2810370714 @default.
W3199523614 hasRelatedWork W2899084033 @default.
W3199523614 hasRelatedWork W2992213790 @default.
W3199523614 hasRelatedWork W3004824456 @default.
W3199523614 hasRelatedWork W3114089359 @default.
W3199523614 hasVolume "40" @default.
W3199523614 isParatext "false" @default.
W3199523614 isRetracted "false" @default.
W3199523614 magId "3199523614" @default.
W3199523614 workType "article" @default.